CN112291621A - System upgrading automation test method, device and test equipment - Google Patents

Abstract

The embodiment of the application provides a system upgrading automatic test method, a system upgrading automatic test device and test equipment, wherein the method is applied to the test equipment, the test equipment is used for being connected with a smart television through a serial port, and the method comprises the following steps: when the situation that the smart television enters a system upgrading process is detected, monitoring the system upgrading progress of the smart television in real time, controlling the power supply of the smart television to be switched off and on according to a preset test strategy, receiving serial port printing information of the smart television when the power supply of the smart television is switched on again each time, and judging whether the smart television fails to be upgraded or not; and when the upgrade failure is judged, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking. According to the technical scheme, the automatic test of the intelligent television in the system upgrading process can be realized, the software testing efficiency is improved, and the stability of the system under the emergency can be improved by carrying out limit test, so that the user experience is improved.

Description

System upgrading automation test method, device and test equipment

Technical Field

The application relates to the technical field of smart televisions, in particular to a system upgrading automatic testing method, a system upgrading automatic testing device and testing equipment.

Background

In the process of upgrading the smart television, the upgrading is interrupted possibly due to some external factors, and then the upgrading package is damaged, so that the upgrading package cannot be taken down or the upgrading fails, or in the upgrading process, if the power failure condition occurs, the smart television is abnormally shut down, the upgrading program is forced to be interrupted, the executed upgrading program is also erased, so that the upgrading failure is caused, after the smart television is powered on again, the upgrading process is abnormal, the upgrading operation cannot be continued, and in severe cases, the system is abnormally started, so that a user cannot start the smart television.

In order to meet the requirements of users in the emergency situations, limit tests are often required, and if such tests are performed manually, a large amount of manual resources are required to perform repeated limit tests, which greatly reduces the efficiency of test work.

Disclosure of Invention

In view of the above, an object of the present application is to provide a method, an apparatus and a device for testing system upgrade automation, so as to overcome the deficiencies in the prior art.

The embodiment of the application provides a system upgrading automatic test method, which is applied to test equipment, wherein the test equipment is used for being connected with a smart television through a serial port, and the method comprises the following steps:

when the fact that the intelligent television enters a system upgrading process is detected, monitoring the system upgrading progress of the intelligent television in real time, and controlling the power supply of the intelligent television to be switched on and off according to a preset test strategy; the preset test strategy comprises a first preset number of specified system upgrading schedules used for indicating upgrading power-off operation time;

receiving serial port printing information of the intelligent television when the power supply of the intelligent television is reconnected every time, wherein the serial port printing information is used for judging whether the intelligent television fails to be upgraded or not;

and when the upgrade failure is judged, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

In one embodiment, the test equipment is further used for controlling a power supply device to be connected with a network router through a serial port, the smart television is used for being connected with a cloud server through the network router, and the cloud server stores system upgrading data of the latest system version; before the smart television enters a system upgrading process, the method further comprises the following steps:

when the fact that the smart television starts to download the system upgrading data from the cloud server is detected, monitoring the downloading progress of the smart television in real time, and controlling the power supply of the smart television or the network router to be switched on and off through the serial port control power supply device according to the preset test strategy; the preset test strategy comprises a second preset number of appointed downloading progresses for indicating downloading power-off operation time and a third preset number of appointed downloading progresses for indicating network-off operation time;

receiving serial port printing information of the intelligent television when the power supply of the intelligent television is reconnected every time or the intelligent television is reconnected every time, wherein the serial port printing information is used for judging whether the intelligent television fails to download or not;

and when the downloading failure does not occur each time the power supply of the television is reconnected and each time the network is reconnected, confirming that the intelligent television successfully downloads the system upgrading data of the latest system version.

In one embodiment, the system upgrade automation test method further includes:

and if the download fails, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

In one embodiment, the system upgrade automation test method further includes:

if the upgrade failure does not occur when the television power supply is reconnected every time, reading the system version number after the intelligent television is upgraded after detecting that the system upgrade process is finished, and confirming that the intelligent television is upgraded successfully when judging that the system version number is the latest system version number.

In an embodiment, after confirming that the upgrade of the smart television is successful, if there are multiple inventory system versions of the smart television, the method further includes:

controlling the intelligent television to be switched to an untested stock system version, and re-executing the automatic system upgrading test on the intelligent television;

and after the intelligent television is successfully upgraded, controlling to switch to the next untested stock system version for carrying out automatic system upgrade testing until all stock system versions are tested.

In one embodiment, the test equipment is used for connecting the smart television with a controllable power socket of the network router through a serial port control power supply device, the serial port control power supply device comprises a USB serial port converter and a relay, the USB serial port converter is connected with the test equipment, and the relay is used for connecting the smart television with the controllable power socket of the network router;

the controlling the power of the intelligent television or the network router to be switched on and off comprises the following steps:

the testing equipment controls the relay to be closed or opened through the USB serial port converter, so that the controllable power socket of the intelligent television or the network router is correspondingly connected or disconnected with an alternating current power supply.

The embodiment of the application further provides an automatic testing arrangement of system upgrade, is applied to test equipment, test equipment is used for connecting smart television through the serial ports, the device includes:

the upgrading test module is used for monitoring the system upgrading progress of the intelligent television in real time after detecting that the intelligent television enters a system upgrading process, and controlling the power supply of the intelligent television to be switched on and off according to a preset test strategy; the preset test strategy comprises a first preset number of specified system upgrading schedules used for indicating upgrading power-off operation time;

the first processing module is used for receiving serial port printing information of the intelligent television when the power supply of the intelligent television is switched on again each time, and the serial port printing information is used for judging whether the intelligent television fails to be upgraded or not; and when the upgrade failure is judged, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

The embodiment of the application further provides a test device, the test device comprises a serial port, a processor and a memory, the serial port is used for being connected with the smart television, the memory stores a computer program, and the processor is used for executing the computer program to implement the above system upgrading automatic test method.

In one embodiment, the test apparatus further comprises: and the test equipment is used for connecting a controllable power socket of the intelligent television through the serial port control power supply device.

Embodiments of the present application also provide a readable storage medium storing a computer program, which when executed implements the above-mentioned system upgrade automation test method.

The embodiment of the application has the following advantages:

according to the system upgrading automatic testing method, after the intelligent television enters a system upgrading process, the system upgrading progress of the intelligent television is monitored in real time, the power is cut off when the specified system upgrading progress is reached so as to simulate the reaction after the intelligent television is tested to be powered on again when sudden power failure occurs in actual application, if upgrading failure occurs, the test is stopped, the test result at the moment is printed and sent to a tester for checking, and of course, optionally, if the intelligent television does not have upgrading failure during each simulation power-off operation, the situation that the intelligent television can better cope with the simulation power-off situation occurring in the actual system upgrading process is shown. The automatic testing method can well and repeatedly carry out limit testing, and compared with manual testing, the method can greatly improve the efficiency of testing work.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic diagram illustrating an upgrade testing flow of a system upgrade automation testing method according to an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating an application of the system upgrade automation test method according to the embodiment of the present application;

FIG. 3 is a schematic view showing a download test flow of the system upgrade automation test method according to the embodiment of the present application;

FIG. 4 shows a first schematic structural diagram of a system upgrade automation test device of an embodiment of the present application;

fig. 5 shows a second schematic structural diagram of the system upgrade automation test device according to the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

Hereinafter, the terms "including", "having", and their derivatives, which may be used in various embodiments of the present application, are intended to indicate only specific features, numbers, steps, operations, elements, components, or combinations of the foregoing, and should not be construed as first excluding the existence of, or adding to, one or more other features, numbers, steps, operations, elements, components, or combinations of the foregoing.

Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the various embodiments of the present application belong. Terms such as those defined in commonly used dictionaries will be interpreted as having a meaning that is the same as a contextual meaning in the related art and will not be interpreted as having an idealized or overly formal meaning unless expressly so defined herein in various embodiments.

Example 1

Referring to fig. 1, the present embodiment provides a system upgrade automated testing method, which can be applied to the testing device 10 shown in fig. 2, where the testing device 10 is mainly used for implementing a system upgrade automated test of an intelligent television. The method can greatly improve the testing efficiency and the like.

In this embodiment, the testing device 10 is connected to the smart tv 20 as a test object through a serial port, so as to communicate with the connected smart tv 20 through the serial port and obtain corresponding test data during the testing process. In one embodiment, the test device 10 may be a computer device or the like. The serial port is also called a COM port, i.e., a serial communication port. Before starting the test, the test device 10 exemplarily selects a serial port connected to the smart television 20 and performs corresponding operations such as serial port baud rate setting, so as to establish the serial port connection between the test device 10 and the smart television 20.

The automatic test method for upgrading the system is explained below as shown in fig. 1.

S110, it is detected whether the smart tv 20 enters a system upgrade process.

And S120, monitoring the system upgrading progress of the intelligent television 20 in real time after the upgrading process is detected to enter.

Generally, after downloading the system upgrade data with a higher version, the smart tv 20 enters a system upgrade process to upgrade and update its own system software. Exemplarily, the testing device 10 may obtain the real-time status information of the smart television 20 through a serial port, for example, after the smart television 20 enters a system upgrade process, the testing device 10 may obtain the system upgrade progress of the smart television 20 in real time by writing a corresponding testing software script, for example, the upgrade progress is obtained to be 10%, 20%, 50%, …%, 75%, and the like.

And S130, controlling the power of the intelligent television 20 to be switched on and off according to a preset test strategy. The preset test strategy comprises a plurality of designated system upgrading schedules for indicating the power-off operation time.

In order to test whether the situation that the upgrade fails occurs in the actual system upgrade process of the smart television 20, the present embodiment performs simulated power off on the smart television 20 at different stages of the system upgrade, so as to test the response of the smart television 20 after sudden power off and power on again during the upgrade.

Exemplarily, the testing device 10 will control the power-on and power-off of the smart tv 20 at different system upgrade progress nodes according to a preset testing strategy, that is, control the power of the smart tv 20 to be turned on and off. In this embodiment, the preset test policy may include, but is not limited to, a plurality of specified system upgrade schedules for indicating the power-off operation time, for example, the power of the smart tv 20 may be controlled to be turned off once when the system upgrade schedules are 20%, 40%, 60%, 75%, 90%, and the like, respectively, so as to monitor the reaction of the smart tv 20 at each time of power-back. It will be appreciated that the above-listed several upgrade progress nodes are merely exemplary and are not intended to be a specific limitation on the plurality of specified system upgrade progresses described above.

In one embodiment, as shown in fig. 2, the test device 10 may control the power of the smart tv 20 to be turned off and on by controlling the power supply apparatus 101 through a serial port. Exemplarily, the serial port control power supply device 101 includes a USB serial port converter and a relay, wherein the USB serial port converter is used for performing serial port command conversion and driving the relay, the USB serial port converter is connected to the USB interface of the testing device 10, and the relay is used for connecting to the controllable power socket of the smart tv 20, for example, a normally open contact or a normally closed contact of the relay is to be connected to an ac control pin of the controllable power socket. When the test device 10 sends a serial port control command, the USB serial port converter converts the serial port control command and then drives the relay to perform an operation of closing or opening, so that the controllable power socket of the smart television 20 is correspondingly connected or disconnected with the ac power supply in the patch board, and the simulated power-on and power-off effects are achieved.

And S140, receiving serial port printing information of the smart television 20 when the power supply of the smart television is reconnected every time, wherein the serial port printing information is used for judging whether upgrade failure occurs.

S150, judging whether the upgrading fails when the television power supply is reconnected every time.

Illustratively, the smart tv 20 will print and send information to the testing device 10 via the serial port each time it is powered back up. Accordingly, the testing device 10 may determine whether the upgrade failure occurs in the smart television 20 through the received serial port printing information. For example, the serial port printing information may include system process change data of the smart television 20, and the like. Exemplarily, the testing device 10 may determine, through the print information, whether the smart tv 20 successfully enters the system upgrade process again after being powered on again, or whether the upgrade progress of the smart tv 20 after entering the system upgrade process stays at the same upgrade progress node for a long time. For example, if the system upgrade flow is not entered again, it may be determined that the upgrade has failed in the current simulated power failure test.

And S160, if the upgrading fails, stopping testing and sending the serial port printing information to the tester when the testing is stopped.

Exemplarily, if it is determined that the smart television 20 fails to be upgraded after being powered on again, the current test is immediately stopped, and the serial port printing information when the test is stopped is sent to the tester for checking. Generally, the serial port printing information includes information such as a specific problem phenomenon that occurs. For example, the test device 10 may package serial port print information for stopping the test into a file and automatically send the file to a tester by mail or the like. Optionally, the test device 10 further detects the size of the packaged file, and if the file is smaller, the file may be directly transmitted, otherwise, if the file exceeds a preset file threshold, the file may be compressed and then transmitted.

It can be understood that the tester need not check the test result in real time, and only needs to check the serial port printing information to analyze the specific test problem after receiving the packed file, so as to solve the test fault of the smart television 20, thereby improving the system reliability of the smart television 20. Generally, after each failure is resolved, the above upgrade test may be performed again on the smart tv 20 until the whole system upgrade process can be performed normally.

Optionally, for the step S150, the method for automatically testing system upgrade further includes:

and S170, if no upgrade failure occurs, after the system upgrade process is detected to be finished, reading the system version number of the upgraded intelligent television 20, and confirming that the intelligent television 20 is upgraded successfully when the system version number is judged to be correct.

Exemplarily, if it is determined that no abnormality occurs in the smart television 20 every time the television power is turned on again, the testing device 10 checks the system version number after the upgrade of the smart television 20 to determine whether the upgrade is successful. Exemplarily, when the version number of the upgraded smart television 20 is the same as the latest version number in the cloud server, the upgrade is confirmed to be successful. At this point, the test process of one version upgrade is completed.

In the actual television system upgrading process, considering that a user television is often placed in a user home, a remote upgrading mode is usually adopted, namely, updated system software upgrading data needs to be obtained from a cloud end first, and then system upgrading operation is carried out. Therefore, in some embodiments, the system upgrade automation test may include a remote download test phase in addition to the upgrade test phase, that is, a test process for downloading system upgrade data from the cloud of the smart tv 20. Typically, it may be arranged to enter the upgrade test step after the remote download test has passed.

The test device 10 is further configured to be connected to a network router 30, and the smart tv 20 is configured to be connected to a cloud server through the network router 30, so as to obtain the latest version of system software upgrade data from the cloud server. For example, as shown in fig. 2, the smart tv 20 may be connected to the network router 30 through a wired connection or a wireless connection. In one embodiment, the testing device 10 can be connected to the controllable power socket of the network router 30 through the serial port control power supply device 101, so as to control the power of the network router 30 to be turned on and off.

Before step S110, as shown in fig. 3, the method for automatically testing system upgrade further includes:

s101, detecting whether the smart television 20 starts to download system upgrading data from the cloud server.

And S102, monitoring the downloading progress of the intelligent television 20 in real time when the starting of downloading is detected.

Exemplarily, the testing device 10 may obtain real-time status information of the smart tv 20 through the serial port, including whether to enter a process of downloading system upgrade data, a real-time downloading progress of a downloading phase, and the like.

And S103, controlling the power supply of the intelligent television 20 or the network router 30 to be switched on and off according to a preset test strategy. The preset test strategy comprises a second preset number of appointed downloading progresses used for indicating downloading power-off operation time and a third preset number of appointed downloading progresses used for indicating network-off operation time.

Exemplarily, the preset test policy may include that the test device 10 performs power-on and power-off control on the smart tv 20 or the network router 30 at different download schedule times, for example, the specified download schedule at the download power-off operation time may be set to 20%, 40%, 50%, 80%, 90%, and the like; the designated download progress at the time of the network disconnection operation may be 10%, 30%, 60%, 70%, 95%, or the like. Generally, after the power failure, the smart television 20 often cannot be connected to the network, that is, a network failure situation occurs, but the power failure does not necessarily occur when the smart television 20 is disconnected from the network, and optionally, the power failure operation and the network failure operation may occur at different times, so as to implement various scenarios of limit tests, thereby facilitating finding more possible software failures and the like. It is to be understood that the specified download schedules are only examples and are not intended to limit the second predetermined number, the third predetermined number and each specific value.

And S104, receiving serial port printing information of the intelligent television 20 when the power supply of the intelligent television 20 is reconnected every time or the network is reconnected every time, wherein the serial port printing information is used for judging whether the intelligent television 20 fails to download.

And S105, judging whether the downloading fails when the television power supply is reconnected every time and the network is reconnected every time.

Exemplarily, the testing device 10 may determine whether the smart television 20 successfully enters the system downloading process again after being powered on again through the serial port printing information, or whether the downloading is restarted after entering the system downloading process again; or, after the network is reconnected, whether the download progress stays at the same download progress node for a long time (i.e., breakpoint resuming) or not may be determined. For example, if the download process is not re-entered, or the breakpoint resume cannot be performed, it can be determined that the download failed in the analog power-off or network-off test.

And S106, if no download failure occurs, confirming that the intelligent television 20 successfully downloads the system upgrading data of the latest system version.

Exemplarily, if the smart tv 20 fails to download every time the tv power is turned on again and every time the network is reconnected, it may be determined that the smart tv 20 successfully downloads the system upgrade data. Further, the smart tv 20 waits for the system upgrade procedure to be automatically entered, i.e., the process jumps to step S110.

Optionally, for step S105, the method for automatically testing system upgrade further includes:

and S107, if the downloading fails, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

Exemplarily, if it is determined that the smart tv 20 has failed in downloading when the power of the tv is turned on again or when the network is reconnected, the test is immediately stopped and the serial port printing information when the test is stopped is sent to the tester. In the serial port printing information sending step when the upgrade fails, the options are also applicable to the case of download failure, and therefore, the description is not repeated here.

Further optionally, in consideration that current versions of the smart televisions 20 of different users may be different, in order to test a case that the smart televisions 20 of different versions are updated to the latest system version, the system upgrade automation test method further includes: and (4) performing cycle test on different stock system versions, namely automatically testing the upgrade of the next stock version after the upgrade of one stock version is tested. The stock system version can be understood as a historical system version which is a non-latest version.

For example, as shown in fig. 2, the smart tv 20 may be accessed through a storage device (e.g., a usb disk, etc.) storing different stock system versions, after the smart tv 20 completes a version upgrade test, the next untested stock system version may be read from the storage device and switched to the current system version, and then the above steps S101 to S107 are re-executed and the above steps S110 to S170 are continuously executed after the download test is successful. Then, after confirming that the upgrade of the smart television 20 is successful again, the control is switched to another untested stock system version to re-execute the above-mentioned system upgrade automated testing steps until all the stock system versions are tested.

According to the system upgrading automatic testing method, after the intelligent television enters a system upgrading process, the system upgrading progress of the intelligent television is monitored in real time, the power is cut off when the specified system upgrading progress is reached so as to be used for testing and simulating the reaction after the intelligent television is electrified again when sudden power failure occurs in actual application, and if the upgrading fails, the testing is stopped, and the testing result at the moment is printed and sent to a tester for checking. Optionally, if the smart television does not have an upgrade failure in each simulated power-off operation, it indicates that the smart television can better cope with the simulated power-off condition occurring in the actual system upgrade process. The automatic testing method can well and repeatedly carry out limit testing, and compared with manual testing, the method can greatly improve the efficiency of testing work.

Example 2

Referring to fig. 4, the present embodiment provides a system upgrade automation test apparatus 100, which is applied to the test device 10 in embodiment 1, where the test device 10 is used to connect to the smart television 20 through a serial port. Exemplarily, the system upgrade automation test device 100 includes:

the upgrade testing module 110 is configured to monitor a system upgrade progress of the smart television 20 in real time after detecting that the smart television 20 enters a system upgrade process, and control power of the smart television 20 to be turned off and on according to a preset testing policy; the preset test strategy comprises a first preset number of designated system upgrading progress used for indicating upgrading power-off operation time.

The first processing module 120 is configured to receive serial port printing information of the smart television 20 when the television power is turned on again each time, where the serial port printing information is used to determine whether the smart television 20 fails to be upgraded; and when the upgrade failure is judged, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

Optionally, the first processing module 120 is further configured to, if no upgrade failure occurs when the television power is turned on again each time, after detecting that the system upgrade process is ended, read the system version number of the smart television 20 after being upgraded, and confirm that the smart television 20 is successfully upgraded when determining that the system version number is the latest system version number.

Further, as shown in fig. 5, the system upgrade automation test apparatus 100 further includes: a download test module 130 and a second processing module 140.

The download testing module 130 is configured to monitor a download progress of the smart television 20 in real time when it is detected that the smart television 20 starts to download the system upgrade data from the cloud server, and control power of the smart television 20 or the network router 30 to be turned off and on according to the preset testing policy. The preset test strategy comprises a second preset number of appointed downloading progresses used for indicating downloading power-off operation time and a third preset number of appointed downloading progresses used for indicating network-off operation time.

The second processing module 140 is configured to, when the download failure does not occur each time the television power is reconnected and each time the network is reconnected, confirm that the smart television successfully downloads the system upgrade data of the latest system version. Optionally, the second processing module 140 is further configured to stop the test and send the serial port printing information when the test is stopped to a tester for viewing if the download fails.

It will be appreciated that the term "first" in the first processing module and "second" in the second processing module are used herein primarily to distinguish the processing module in the upgrade test phase from the processing module in the download test phase. In addition, each module of the present embodiment corresponds to each step of the above embodiment 1, and any optional items in the above embodiment 1 are also applicable to the present embodiment, so detailed description thereof is omitted here.

The present application also provides a test device, such as a computer or the like. Exemplarily, the testing device comprises a serial port, a processor and a memory, wherein the serial port is used for connecting the smart television, the memory stores a computer program, and the processor is used for executing the computer program to implement the system upgrade automation testing method of the above embodiment.

Optionally, the testing apparatus may further include the serial port control power supply device 101 in embodiment 1, and the testing apparatus may be configured to connect the smart television and the controllable power socket of the network router through the serial port control power supply device 101. For example, if the testing device is a computer terminal, the serial port control power supply apparatus 101 exemplarily includes a USB serial port converter and a relay, wherein the USB serial port converter is connected to the computer, and the relay is used for connecting to a controllable power socket of a smart television or a network router.

The memory may include a program storage area and a data storage area, wherein the program storage area may store an operating system and an application program required by at least one function; the storage data area may store data (such as serial port printing information, a test script file, etc.) created according to the use of the test apparatus, and the like. Further, the memory may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device.

The application also provides a readable storage medium for storing a computer program for use in the above-described test apparatus.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method can be implemented in other ways. The apparatus embodiments described above are merely illustrative and, for example, the flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, each functional module or unit in each embodiment of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a smart phone, a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application.

Claims (10)

1. The system upgrading automatic test method is applied to test equipment, wherein the test equipment is used for being connected with a smart television through a serial port, and the method comprises the following steps:

when the fact that the intelligent television enters a system upgrading process is detected, monitoring the system upgrading progress of the intelligent television in real time, and controlling the power supply of the intelligent television to be switched on and off according to a preset test strategy; the preset test strategy comprises a first preset number of specified system upgrading schedules used for indicating upgrading power-off operation time;

receiving serial port printing information of the intelligent television when the power supply of the intelligent television is reconnected every time, wherein the serial port printing information is used for judging whether the intelligent television fails to be upgraded or not;

and when the upgrade failure is judged, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

2. The automatic test method for system upgrade according to claim 1, wherein the test device is further configured to connect to a network router, the smart tv is configured to connect to a cloud server through the network router, and the cloud server stores system upgrade data of a latest system version; before the smart television enters a system upgrading process, the method further comprises the following steps:

when the fact that the smart television starts to download the system upgrading data from the cloud server is detected, monitoring the downloading progress of the smart television in real time, and controlling the power supply of the smart television or the network router to be switched on and off according to the preset test strategy; the preset test strategy comprises a second preset number of appointed downloading progresses for indicating downloading power-off operation time and a third preset number of appointed downloading progresses for indicating network-off operation time;

receiving serial port printing information of the intelligent television when the power supply of the intelligent television is reconnected every time or the intelligent television is reconnected every time, wherein the serial port printing information is used for judging whether the intelligent television fails to download or not;

and when the downloading failure does not occur each time the power supply of the television is reconnected and each time the network is reconnected, confirming that the intelligent television successfully downloads the system upgrading data of the latest system version.

3. The system upgrade automation test method of claim 2, further comprising:

and if the download fails, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

4. The system upgrade automation test method according to claim 2 or 3, further comprising:

if the upgrade failure does not occur when the television power supply is reconnected every time, reading the system version number after the intelligent television is upgraded after detecting that the system upgrade process is finished, and confirming that the intelligent television is upgraded successfully when judging that the system version number is the latest system version number.

5. The method according to claim 4, wherein after confirming that the upgrade of the smart television is successful, if the smart television has a plurality of stock system versions, the method further comprises:

controlling the intelligent television to obtain an untested stock system version, and re-executing the automatic system upgrading test on the intelligent television;

and after the intelligent television is successfully upgraded, controlling to switch to the next untested stock system version for carrying out automatic system upgrade testing until all stock system versions are tested.

6. The system upgrade automation test method according to claim 2, wherein the test equipment is used to connect the smart tv and the controllable power socket of the network router through a serial port control power supply device, the serial port control power supply device includes a USB serial port converter and a relay, the USB serial port converter is connected to the test equipment, and the relay is used to connect the smart tv and the controllable power socket of the network router; the controlling the power of the intelligent television or the network router to be switched on and off comprises the following steps:

the testing equipment controls the relay to be closed or opened through the USB serial port converter, so that the controllable power socket of the intelligent television or the network router is correspondingly connected or disconnected with an alternating current power supply.

7. The utility model provides an automatic testing arrangement of system upgrade which characterized in that is applied to test equipment, test equipment is used for through serial ports connection smart TV, the device includes:

the upgrading test module is used for monitoring the system upgrading progress of the intelligent television in real time after detecting that the intelligent television enters a system upgrading process, and controlling the power supply of the intelligent television to be switched on and off according to a preset test strategy; the preset test strategy comprises a first preset number of specified system upgrading schedules used for indicating upgrading power-off operation time;

the first processing module is used for receiving serial port printing information of the intelligent television when the power supply of the intelligent television is switched on again each time, and the serial port printing information is used for judging whether the intelligent television fails to be upgraded or not; and when the upgrade failure is judged, stopping the test and sending the serial port printing information when the test is stopped to a tester for checking.

8. A test device, comprising a serial port for connecting to a smart television, a processor, and a memory, wherein the memory stores a computer program, and wherein the processor is configured to execute the computer program to implement the system upgrade automation test method according to any one of claims 1 to 6.

9. The test apparatus of claim 8, further comprising: and the test equipment is used for connecting the controllable power socket of the intelligent television through the serial port control power supply device.

10. A readable storage medium characterized in that it stores a computer program which, when executed, implements the system upgrade automation test method according to any one of claims 1 to 6.

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