CN110567521A - all-in-one machine performance test method and device - Google Patents

Abstract

The invention discloses an all-in-one machine performance testing method which is characterized by comprising the following steps: sending a test program to the integrated machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program; executing corresponding test operation on the all-in-one machine according to the test program, and generating a test result; and generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine. The invention also discloses a device for testing the performance of the all-in-one machine. By adopting the embodiment of the invention, the test report can be automatically generated, the dependence on development personnel is removed, the test flow is standardized, and the data reliability is improved.

Description

all-in-one machine performance test method and device

Technical Field

The invention relates to the technical field of all-in-one machine testing, in particular to a method and a device for testing the performance of an all-in-one machine.

background

in order to perform performance test on all-in-one machines of different models, an existing implementation scheme is shown in fig. 1, firstly, a hardware model selector uses a common testing tool such as an ann rabbit or a young master in the prior art to run out and divide the all-in-one machine to obtain the approximate overall performance condition of the all-in-one machine, then, a developer is further made to perform detailed testing on key modules such as an audio and video module or a network module in the all-in-one machine, and further, a test result of the performance of the all-in-one machine is obtained. Although the above test method can obtain the test result of the performance of the all-in-one machine, the following disadvantages exist: the method depends on manual testing of testers, so that no specific data testing standard exists in the generation of a testing report, the subjectivity is strong, and a large amount of manpower and material resources are wasted during batch delivery inspection of equipment.

Disclosure of Invention

The embodiment of the invention aims to provide an all-in-one machine performance testing method and device, which can automatically generate a test report, remove the dependence on developers, standardize a testing process and improve the data reliability.

in order to achieve the above object, an embodiment of the present invention provides an all-in-one machine performance testing method, including:

sending a test program to the integrated machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program;

executing corresponding test operation on the all-in-one machine according to the test program, and generating a test result;

and generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine.

compared with the prior art, the method for testing the performance of the all-in-one machine disclosed by the embodiment of the invention comprises the following steps of firstly, sending a program to be tested to the all-in-one machine, so that the all-in-one machine runs the program, and the all-in-one machine can be correspondingly tested; and then, generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine. The method for testing the performance of the all-in-one machine disclosed by the embodiment of the invention can automatically generate the test report, remove the dependence on developers, standardize the test flow and improve the data reliability.

As an improvement of the above scheme, when the test program is a video test program, the test operation specifically includes:

acquiring yuv data of an original video in the all-in-one machine;

Encoding the yuv data, and decoding the encoded yuv data; writing a first time stamp into the current yuv data before encoding, and writing a second time stamp into the decoded yuv data after decoding;

obtaining a difference value of the first time stamp and the second time stamp;

Then the test result includes a difference between the first timestamp and the second timestamp.

As an improvement of the above scheme, the encoding the yuv data and decoding the encoded yuv data specifically includes:

encoding the yuv data to encode the yuv data into H264 data;

decoding the H264 data to decode the H264 data into yuv data.

As an improvement of the above scheme, when the test program is an audio test program, the test operation specifically includes:

starting a player in the all-in-one machine to play an audio file; the audio file is a file embedded in the audio test program or a file stored in the all-in-one machine;

Starting a sound pickup in the all-in-one machine to generate a recording file while playing the audio file;

After the player finishes playing the audio file, controlling the player to play the recording file;

popping up an audio test feedback window on a display interface, and receiving audio test feedback information input by a user in the audio test feedback window;

then the test result includes the audio test feedback information.

as an improvement of the above scheme, when the test program is a network test program, the test operation specifically includes:

controlling the all-in-one machine to download pictures in a preset address; the method comprises the steps that a downloading detail window is displayed on a current display interface in the downloading process, and the downloading detail window comprises at least one of a downloading progress bar and an average network speed;

judging whether the picture is downloaded successfully;

If so, displaying the picture; if not, displaying the reason of the download failure;

then, the test result includes an average network speed and a reason for the download failure when the picture download fails.

As an improvement of the above scheme, when the test program is a screen test program, the test operation specifically includes:

when touch operation of a user on a screen is received, changing the color of a display interface in the screen into a preset display color;

recording the display condition of the display interface;

then, the test result includes a display condition of the display interface.

as an improvement of the above scheme, when the test program is a basic test, the test operation specifically includes:

Popping up a basic test feedback window on a display interface, and receiving basic test feedback information input by a user in the basic test feedback window;

then the test result includes the basic test feedback information.

in order to achieve the above object, an embodiment of the present invention further provides an apparatus for testing performance of an all-in-one machine, including:

the test program sending unit is used for sending the test program to the integrated machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program;

The testing unit is used for executing corresponding testing operation on the all-in-one machine according to the testing program and generating a testing result;

and the comparison unit is used for generating a test report according to the test result and comparing the test report with a preset standard report so as to obtain a performance test result of the all-in-one machine.

compared with the prior art, the device for testing the performance of the all-in-one machine disclosed by the embodiment of the invention has the advantages that firstly, the test program sending unit sends the program to be tested to the all-in-one machine, so that the all-in-one machine runs the program, and the test unit can correspondingly test the all-in-one machine; and then, the comparison unit generates a test report according to the test result and compares the test report with a preset standard report, so that a performance test result of the all-in-one machine is obtained. The performance testing device of the all-in-one machine disclosed by the embodiment of the invention can automatically generate a test report, remove the dependence on development personnel, standardize the testing process and improve the data reliability.

As an improvement of the above scheme, when the test program is a video test program, the test operation specifically includes:

acquiring yuv data of an original video in the all-in-one machine;

encoding the yuv data, and decoding the encoded yuv data; writing a first time stamp into the current yuv data before encoding, and writing a second time stamp into the decoded yuv data after decoding;

Obtaining a difference value of the first time stamp and the second time stamp;

Then the test result includes a difference between the first timestamp and the second timestamp.

as an improvement of the above scheme, when the test program is an audio test program, the test operation specifically includes:

starting a player in the all-in-one machine to play an audio file; the audio file is a file embedded in the audio test program or a file stored in the all-in-one machine;

Starting a sound pickup in the all-in-one machine to generate a recording file while playing the audio file;

after the player finishes playing the audio file, controlling the player to play the recording file;

popping up an audio test feedback window on a display interface, and receiving audio test feedback information input by a user in the audio test feedback window;

Then the test result includes the audio test feedback information.

drawings

FIG. 1 is a flow chart of performance testing of a kiosk in the prior art;

FIG. 2 is a flow chart of a method for testing the performance of an all-in-one machine according to an embodiment of the present invention;

FIG. 3 is a flow chart of a video test in the method for testing the performance of an all-in-one machine according to the embodiment of the present invention;

FIG. 4 is a flowchart of audio testing in the method for testing performance of an all-in-one machine according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an all-in-one machine performance testing device provided by an embodiment of the invention.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 2, fig. 2 is a flowchart of an all-in-one machine performance testing method provided by the embodiment of the invention; the all-in-one machine performance test method comprises the following steps:

s1, sending the test program to the all-in-one machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program;

s2, executing corresponding test operation on the all-in-one machine according to the test program, and generating a test result;

And S3, generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine.

it should be noted that the method for testing the performance of the all-in-one machine according to the embodiment of the present invention may be implemented by a test tool, where the test tool is an APP pre-installed in the all-in-one machine, or the test tool is a test device independent from the all-in-one machine, and when the test device tests the all-in-one machine, a connection relationship between the test device and the all-in-one machine needs to be pre-established, and the connection relationship is wired connection/wireless connection.

Specifically, in step S1, the testing tool performs a performance test on the all-in-one machine by sending a testing program, for example, in the testing process, the testing tool may receive an artificial control instruction (for example, an instruction to open a test instruction, input information of a popup window, an instruction to manually open a popup window, and an instruction to send which testing program), so as to execute a corresponding operation according to the artificial control instruction.

specifically, in step S2, a corresponding test operation is performed on the all-in-one machine according to the test program, and a test result is generated.

optionally, referring to fig. 3, fig. 3 is a flowchart of a video test in the method for testing performance of an all-in-one machine according to the embodiment of the present invention; when the test program is a video test program, the test operation specifically includes:

S211, acquiring yuv data of an original video in the all-in-one machine;

s212, encoding the yuv data, and decoding the encoded yuv data; writing a first time stamp into the current yuv data before encoding, and writing a second time stamp into the decoded yuv data after decoding;

s213, obtaining the difference value of the first time stamp and the second time stamp.

Specifically, in step S211, when receiving the video test program, the all-in-one machine starts its own video module, and collects yuv data of the original video in the camera. It should be noted that a USB camera is built in the all-in-one machine, the original video data is obtained from the USB camera, and the most original bare data of the camera assembly of the operating system of the all-in-one machine, which is exposed to the upper application developer, is yuv format data.

after acquiring the yuv data of one frame for one frame given by the camera, drawing the yuv data of one frame for one frame on the canvas, namely playing the local video picture.

optionally, step S212 specifically includes:

Encoding the yuv data to encode the yuv data into H264 data; decoding the H264 data to decode the H264 data into yuv data.

in step S212, while rendering the canvas, another operation is performed simultaneously, that is, yuv data given by one camera is copied and encoded into H264 data (H264 is a video compression algorithm), then the H264 data is decoded into yuv data of one frame and one frame, and the yuv data is drawn on another canvas, and the pictures of the two canvases are compared. Before each frame of yuv data is encoded into H264 data, a first time stamp is automatically assigned to each frame of yuv data as a frame data flag, and then the H264 data is encoded. After the H264 data is decoded into yuv data, a second timestamp is automatically assigned to each decoded frame of yuv data as a frame data flag. This process is able to mimic the flow of video codecs that must be experienced on a genuine video product.

Specifically, in step S213, the video test belongs to a stress test, and the program needs to be continuously run for more than 48 hours. And in the running process of the video module, obtaining a difference value between the first time stamp and the second time stamp, wherein the difference value is used for judging the delay of the video module in coding and decoding, and judging whether the coding and decoding performance of the all-in-one machine meets the type selection condition (namely judging whether the coding and decoding performance of the all-in-one machine is qualified or not) through the delay. Illustratively, data such as the CPU utilization rate, the temperature and the video output resolution in the running process of the video module are also acquired. The test result includes the difference between the first timestamp and the second timestamp, the CPU utilization, the temperature, and the video output resolution, and the test result can evaluate the operation performance of the video module in the all-in-one machine.

Optionally, referring to fig. 4, fig. 4 is a flowchart of an audio test in the method for testing performance of an all-in-one machine according to the embodiment of the present invention; when the test program is an audio test program, the test operation specifically includes:

S221, starting a player in the all-in-one machine to play an audio file; the audio file is a file embedded in the audio test program or a file stored in the all-in-one machine;

s222, starting a sound pickup in the all-in-one machine while playing the audio file to generate a recording file;

s223, after the player finishes playing the audio file, controlling the player to play the recording file;

s224, popping up an audio test feedback window on the display interface, and receiving audio test feedback information input by a user in the audio test feedback window.

During the playing of the audio file or the recording file, the user (tester) can verify whether the sound responds correctly by listening to the tone, etc. For example, when the user finds that part of the functions fail to respond correctly, the user may manually call an audio test feedback window on the display interface to input audio test feedback information, or automatically pop up the audio test feedback window on the display interface after the recording file is played, so that the user can input the audio test feedback information in the audio test feedback window. The test result is the audio test feedback information, and the running performance of the player and the sound pickup of the all-in-one machine can be judged according to the audio test feedback information.

for example, the audio test feedback window may have a plurality of audio test feedback information that needs to be input by the user, and the audio test feedback information is presented in a table form, for example, the table includes a plurality of input windows: whether the tone responds correctly, whether the volume is controllable, whether the tone responds correctly, etc.

optionally, when the test program is a network test program, the test operation specifically includes:

S231, controlling the all-in-one machine to download the pictures in the preset address; the method comprises the steps that a downloading detail window is displayed on a current display interface in the downloading process, and the downloading detail window comprises at least one of a downloading progress bar and an average network speed;

S232, judging whether the picture is downloaded successfully;

s233, if yes, displaying the picture; and if not, displaying the reason of the download failure.

The test result comprises an average network speed and a download failure reason when the picture download fails, and the network port of the all-in-one machine can be verified to be a gigabit network port or a hundred-megabyte network port according to the average network speed, and the operation performance of a communication module in the all-in-one machine can be judged.

optionally, when the test program is a screen test program, the test operation specifically includes:

s241, when touch operation of a user on a screen is received, changing the color of a display interface in the screen into a preset display color;

And S242, recording the display condition of the display interface.

illustratively, the user clicks on the screen, the screen randomly changes to a preset display color (e.g., a random one of 5 colors such as red, green, blue, black, white, etc.), and the color fills the screen. Carefully observing the screen, and recording the display condition of the display interface. Such as whether the color distribution is uniform or whether light piping dots are present. The test result comprises the display condition of the display interface and can be automatically generated, and the running performance of the screen of the all-in-one machine is judged according to the display condition of the display interface.

optionally, when the test program is a basic test, the test operation specifically includes:

and S251, popping up a basic test feedback window on a display interface, and receiving basic test feedback information input by a user in the basic test feedback window.

the basic test feedback information comprises a bill of materials of the all-in-one machine, part abnormity (such as integral shaking, no looseness, falling and abnormal sound phenomena of machine parts) and confirmation of a system firmware version. Then, the test result includes the basic test feedback information, and the basic performance of the all-in-one machine can be judged according to the basic test feedback information.

Specifically, in step S3, after all the test programs are executed, the test results are integrated to generate a test report, and then the test report is automatically saved to the local disk. And meanwhile, a pre-stored standard report is called for comparison, in the comparison process, the parts of the test report, which are different from the standard report, are automatically screened out and integrated, and therefore the performance test result of the all-in-one machine is obtained.

Compared with the prior art, the method for testing the performance of the all-in-one machine disclosed by the embodiment of the invention comprises the following steps of firstly, sending a program to be tested to the all-in-one machine, so that the all-in-one machine runs the program, and the all-in-one machine can be correspondingly tested; and then, generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine. The method for testing the performance of the all-in-one machine disclosed by the embodiment of the invention can automatically generate the test report, reduce manual testing and remove the dependence on developers; the test tool APP is customized, and test data are more comprehensive and reliable; and standard test documents are added, so that the test flow is more standardized.

the embodiment of the invention also provides an all-in-one machine performance testing device, and referring to fig. 5, fig. 5 is a schematic structural diagram of the all-in-one machine performance testing device provided by the embodiment of the invention; the all-in-one machine performance testing device specifically comprises:

the test program sending unit 11 is used for sending the test program to the integrated machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program;

The testing unit 12 is used for executing corresponding testing operation on the all-in-one machine according to the testing program and generating a testing result;

and the comparison unit 13 is used for generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine.

It should be noted that the performance testing apparatus of the all-in-one machine according to the embodiment of the present invention may be a testing tool, where the testing tool is an APP pre-installed in the all-in-one machine, or the testing tool is a testing apparatus independent from the all-in-one machine, when the testing apparatus tests the all-in-one machine, a connection relationship between the testing apparatus and the all-in-one machine needs to be pre-established, and the connection relationship is wired connection/wireless connection.

optionally, when the test program is a video test program, the test operation of the test unit 12 specifically includes:

acquiring yuv data of an original video in the all-in-one machine; encoding the yuv data, and decoding the encoded yuv data; writing a first time stamp into the current yuv data before encoding, and writing a second time stamp into the decoded yuv data after decoding; obtaining a difference value of the first time stamp and the second time stamp;

then the test result includes a difference between the first timestamp and the second timestamp.

Optionally, when the test program is an audio test program, the test operation of the test unit 12 specifically includes:

starting a player in the all-in-one machine to play an audio file; the audio file is a file embedded in the audio test program or a file stored in the all-in-one machine; starting a sound pickup in the all-in-one machine to generate a recording file while playing the audio file; after the player finishes playing the audio file, controlling the player to play the recording file; popping up an audio test feedback window on a display interface, and receiving audio test feedback information input by a user in the audio test feedback window;

then the test result includes the audio test feedback information.

optionally, when the test program is a network test program, the test operation of the test unit 12 specifically includes:

controlling the all-in-one machine to download pictures in a preset address; the method comprises the steps that a downloading detail window is displayed on a current display interface in the downloading process, and the downloading detail window comprises at least one of a downloading progress bar and an average network speed; judging whether the picture is downloaded successfully; if so, displaying the picture; if not, displaying the reason of the download failure;

then, the test result includes an average network speed and a reason for the download failure when the picture download fails.

Optionally, when the test program is a screen test program, the test operation of the test unit 12 specifically includes:

When touch operation of a user on a screen is received, changing the color of a display interface in the screen into a preset display color; recording the display condition of the display interface;

Then, the test result includes a display condition of the display interface.

optionally, when the test program is a basic test, the test operation of the test unit 12 specifically includes:

popping up a basic test feedback window on a display interface, and receiving basic test feedback information input by a user in the basic test feedback window;

then the test result includes the basic test feedback information.

for a specific working process of the all-in-one machine performance testing device, please refer to the working process of the all-in-one machine performance testing method described in the above embodiment, which is not described herein again.

Compared with the prior art, the device for testing the performance of the all-in-one machine disclosed by the embodiment of the invention has the advantages that firstly, the test program sending unit 11 sends the program to be tested to the all-in-one machine, so that the all-in-one machine runs the program, and the test unit 12 can correspondingly test the all-in-one machine; then, the comparison unit 13 generates a test report according to the test result, and compares the test report with a preset standard report, thereby obtaining a performance test result of the all-in-one machine. The performance testing device of the all-in-one machine disclosed by the embodiment of the invention can automatically generate a test report, reduce manual testing and remove dependence on developers; the test tool APP is customized, and test data are more comprehensive and reliable; and standard test documents are added, so that the test flow is more standardized.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (10)

1. a performance test method for an all-in-one machine is characterized by comprising the following steps:

sending a test program to the integrated machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program;

Executing corresponding test operation on the all-in-one machine according to the test program, and generating a test result;

And generating a test report according to the test result, and comparing the test report with a preset standard report to obtain a performance test result of the all-in-one machine.

2. the performance testing method of the all-in-one machine according to claim 1, wherein when the test program is a video test program, the test operation specifically includes:

acquiring yuv data of an original video in the all-in-one machine;

Encoding the yuv data, and decoding the encoded yuv data; writing a first time stamp into the current yuv data before encoding, and writing a second time stamp into the decoded yuv data after decoding;

obtaining a difference value of the first time stamp and the second time stamp;

then the test result includes a difference between the first timestamp and the second timestamp.

3. The integrated machine performance test method according to claim 2, wherein the encoding the yuv data and the decoding the encoded yuv data specifically include:

Encoding the yuv data to encode the yuv data into H264 data;

Decoding the H264 data to decode the H264 data into yuv data.

4. the performance testing method of the all-in-one machine according to claim 1, wherein when the testing program is an audio testing program, the testing operation specifically includes:

Starting a player in the all-in-one machine to play an audio file; the audio file is a file embedded in the audio test program or a file stored in the all-in-one machine;

starting a sound pickup in the all-in-one machine to generate a recording file while playing the audio file;

After the player finishes playing the audio file, controlling the player to play the recording file;

Popping up an audio test feedback window on a display interface, and receiving audio test feedback information input by a user in the audio test feedback window;

then the test result includes the audio test feedback information.

5. the method for testing performance of an all-in-one machine according to claim 1, wherein when the test program is a network test program, the test operation specifically comprises:

controlling the all-in-one machine to download pictures in a preset address; the method comprises the steps that a downloading detail window is displayed on a current display interface in the downloading process, and the downloading detail window comprises at least one of a downloading progress bar and an average network speed;

Judging whether the picture is downloaded successfully;

if so, displaying the picture; if not, displaying the reason of the download failure;

then, the test result includes an average network speed and a reason for the download failure when the picture download fails.

6. the performance test method of the all-in-one machine according to claim 1, wherein when the test program is a screen test program, the test operation specifically comprises:

when touch operation of a user on a screen is received, changing the color of a display interface in the screen into a preset display color;

recording the display condition of the display interface;

then, the test result includes a display condition of the display interface.

7. The performance testing method of the all-in-one machine according to claim 1, wherein when the test program is a basic test, the test operation specifically includes:

Popping up a basic test feedback window on a display interface, and receiving basic test feedback information input by a user in the basic test feedback window;

Then the test result includes the basic test feedback information.

8. the utility model provides an all-in-one machine capability test device which characterized in that includes:

the test program sending unit is used for sending the test program to the integrated machine; the testing program comprises at least one of a video testing program, an audio testing program, a network testing program, a screen testing program and a basic testing program;

The testing unit is used for executing corresponding testing operation on the all-in-one machine according to the testing program and generating a testing result;

And the comparison unit is used for generating a test report according to the test result and comparing the test report with a preset standard report so as to obtain a performance test result of the all-in-one machine.

9. the apparatus according to claim 8, wherein when the test program is a video test program, the test operation specifically includes:

acquiring yuv data of an original video in the all-in-one machine;

encoding the yuv data, and decoding the encoded yuv data; writing a first time stamp into the current yuv data before encoding, and writing a second time stamp into the decoded yuv data after decoding;

obtaining a difference value of the first time stamp and the second time stamp;

then the test result includes a difference between the first timestamp and the second timestamp.

10. The apparatus according to claim 8, wherein when the test program is an audio test program, the test operation specifically includes:

Starting a player in the all-in-one machine to play an audio file; the audio file is a file embedded in the audio test program or a file stored in the all-in-one machine;

Starting a sound pickup in the all-in-one machine to generate a recording file while playing the audio file;

after the player finishes playing the audio file, controlling the player to play the recording file;

Popping up an audio test feedback window on a display interface, and receiving audio test feedback information input by a user in the audio test feedback window;

Then the test result includes the audio test feedback information.