CN113204494A - Terminal remote test platform and method, electronic equipment and readable medium - Google Patents

Abstract

A terminal remote test platform and method, electronic equipment and readable medium are provided, wherein the terminal remote test platform comprises: the real machine access module is used for accessing a terminal to be tested; the front-end page module is used for inputting the remote test operation of the user on the terminal to be tested; the mapping module is used for mapping the remote test operation input by the front-end page module into the actual operation of the terminal to be tested; and the testing module is used for testing the terminal to be tested accessed by the real machine access module according to the actual operation mapped by the mapping module. The terminal remote testing platform can be accessed to terminals of all types in office areas at different places, and a user can remotely operate the terminals at different places by logging in the terminal remote testing platform without mailing or purchasing a plurality of terminals, so that the testing efficiency and the testing cost can be effectively improved while the terminal testing is facilitated.

Description

Terminal remote test platform and method, electronic equipment and readable medium

Technical Field

The invention belongs to the technical field of remote testing, is particularly suitable for an online video live broadcast technology, and more particularly relates to a terminal remote testing platform, a testing method, electronic equipment and a computer readable medium.

Background

Along with the popularization of the application range of intelligent terminals (such as mobile phones, tablet computers, intelligent wearable devices and the like), the application programs of the terminals are increasing day by day. The compatibility problem of the terminals may be caused by the difference between software and hardware of the terminals with different models. Therefore, testing of the terminal and the application on the terminal requires testing for compatibility.

At present, many enterprises can set up office areas in a plurality of different areas, and when terminals of office areas in different areas and application programs in the terminals are subjected to compatibility test, the terminals are mailed across areas generally, or one terminal of each model is purchased in each office area, and obviously, the problem of low test efficiency and high test cost can be caused by inconvenience in the test.

Disclosure of Invention

In view of the above, the present invention is directed to solve the technical problems of low testing efficiency and high testing cost caused by the inconvenience of performing compatibility testing on terminals in different office areas.

In order to solve the above technical problem, a first aspect of the present invention provides a terminal remote test platform, including:

real machine access module, front end page module, mapping module and the test module that connects gradually, wherein:

the real machine access module is used for accessing a terminal to be tested;

the front-end page module is used for inputting the remote test operation of the user on the terminal to be tested;

the mapping module is used for mapping the remote test operation input by the front-end page module into the actual operation of the terminal to be tested;

and the testing module is used for testing the terminal to be tested accessed by the real machine access module according to the actual operation mapped by the mapping module.

A second aspect of the present invention provides a terminal remote testing method, where the method employs any one of the above terminal remote testing platforms, and includes the following steps:

accessing a terminal to be tested through a real machine testing module;

inputting the remote test operation of a user on the terminal to be tested through a front-end page module;

mapping the remote test operation into an actual operation on the terminal to be tested through a mapping module;

and testing the terminal to be tested accessed by the real machine access module through a testing module according to the actual operation mapped by the mapping module.

The third aspect of the present invention also proposes an electronic device comprising a processor and a memory for storing a computer-executable program, which when executed by the processor performs the method.

The fourth aspect of the present invention also proposes a computer-readable medium storing a computer-executable program which, when executed, implements the method.

Based on the above technical solution, the terminal remote test platform, the test method, the electronic device and the computer readable medium of the present invention have at least one of the following advantages compared with the prior art:

the remote testing system has the advantages that a terminal to be tested in a different place is accessed through the real machine access module, the remote testing operation of a user on the terminal to be tested is input through the front page module, the remote testing operation is mapped into the actual operation on the terminal to be tested through the mapping module, and the terminal to be tested is tested through the testing module according to the actual operation, so that the flexible and convenient remote testing can be realized, and the problems of mail loss, long time of a mail path and the like in the mailing process are avoided;

the terminal remote testing platform can be accessed to terminals of all types in office areas at different places, has good expansibility, can remotely operate the terminals at different places by logging in the terminal remote testing platform by a user, does not need to mail or purchase a plurality of terminals, is convenient for terminal testing, and can effectively improve testing efficiency and testing cost.

Drawings

FIG. 1 is a schematic structural framework of a remote terminal test platform according to the present invention;

FIG. 2a is a schematic diagram of the present invention showing device information of a plurality of accessed terminals to be tested;

FIG. 2b is a schematic diagram of a synchronous display target terminal interface of the present invention;

FIG. 3 is a schematic diagram of the remote testing of the terminal remote test platform of the present invention;

FIG. 4 is a flow chart of a method for remotely testing a terminal according to the present invention;

FIG. 5 is a schematic structural diagram of an electronic device according to an embodiment of the invention;

fig. 6 is a schematic diagram of a computer-readable recording medium according to an embodiment of the present invention.

Detailed Description

In describing particular embodiments, specific details of structures, properties, effects, or other features are set forth in order to provide a thorough understanding of the embodiments by one skilled in the art. However, it is not excluded that a person skilled in the art may implement the invention in a specific case without the above-described structures, performances, effects or other features.

The flow chart in the drawings is only an exemplary flow demonstration, and does not represent that all the contents, operations and steps in the flow chart are necessarily included in the scheme of the invention, nor does it represent that the execution is necessarily performed in the order shown in the drawings. For example, some operations/steps in the flowcharts may be divided, some operations/steps may be combined or partially combined, and the like, and the execution order shown in the flowcharts may be changed according to actual situations without departing from the gist of the present invention.

The block diagrams in the figures generally represent functional entities and do not necessarily correspond to physically separate entities. That is, these functional entities may be implemented in the form of software, or in one or more hardware modules or integrated circuits, or in different networks and/or processing unit devices and/or micro-tester devices.

The same reference numerals denote the same or similar elements, components, or parts throughout the drawings, and thus, a repetitive description thereof may be omitted hereinafter. It will be further understood that, although the terms first, second, third, etc. may be used herein to describe various elements, components, or sections, these elements, components, or sections should not be limited by these terms. That is, these phrases are used only to distinguish one from another. For example, a first device may also be referred to as a second device without departing from the spirit of the present invention. Furthermore, the term "and/or", "and/or" is intended to include all combinations of any one or more of the listed items.

In order to solve the technical problem, the remote testing method comprises the steps that a terminal to be tested in a different place is accessed through a real machine access module, remote testing operation of a user on the terminal to be tested is input through a front-end page module, and the remote testing operation is mapped into actual operation on the terminal to be tested through a mapping module; and testing the terminal to be tested according to the actual operation through a testing module.

In order to solve the above technical problem, the present invention provides a terminal remote testing platform, including:

real machine access module, front end page module, mapping module and the test module that connects gradually, wherein:

the real machine access module is used for accessing a terminal to be tested;

the front-end page module is used for inputting the remote test operation of the user on the terminal to be tested;

the mapping module is used for mapping the remote test operation input by the front-end page module into the actual operation of the terminal to be tested;

and the testing module is used for testing the terminal to be tested accessed by the real machine access module according to the actual operation mapped by the mapping module.

In a preferred embodiment, the real machine access module and the front page module are not located at the same physical location.

In a preferred embodiment, the terminal remote test platform further comprises: and the cluster deployment module is used for deploying a cluster for the terminal remote control platform so as to connect the real machine access modules to access the terminals to be tested respectively.

In a preferred embodiment, the front-end page module includes a list occupation sub-module and a device synchronization sub-module, wherein:

the list occupation submodule is used for acquiring and displaying the accessed device information of a plurality of terminals to be tested and connecting a target terminal from the terminals to be tested according to user operation;

and the equipment synchronization submodule is used for synchronously displaying a target terminal interface and inputting the remote test operation of a user on the target terminal interface.

In a preferred embodiment, the mapping module maps the operation position, the operation mode and/or the operation object of the remote test operation to the actual operation position, the actual operation mode and/or the actual operation object of the target terminal, respectively.

In a preferred embodiment, the actual operation object is a physical key of the target terminal, and the test mapping module maps the operation object to the actual operation object by encapsulating the ADB command.

Preferably, the test module remotely connects the command to test the target terminal through the ADB.

In a preferred embodiment, the platform front-end page module is further configured to input a termination operation of a user on a target terminal, and disconnect the connection with the target terminal.

The terminal remote testing platform can access terminals of all types of office areas at different places, and a user can remotely operate the terminals at different places by logging in the terminal remote testing platform without mailing or purchasing a plurality of terminals, so that the testing efficiency and the testing cost can be effectively improved while the terminal testing is facilitated.

The terminal remote testing platform of the invention deploys the cluster through the cluster deployment module, ensures that the real machine access module can be accessed to a plurality of terminals to be tested in different places so as to realize multi-terminal access, and the same user can test the accessed terminals respectively, and a plurality of users can test the accessed terminals to be tested simultaneously and respectively.

In order that the objects, technical solutions and advantages of the present invention will become more apparent, the present invention will be further described in detail with reference to the accompanying drawings in conjunction with the following specific embodiments.

Fig. 1 is a schematic structural framework diagram of an integrated live broadcast platform provided in the present invention, and as shown in fig. 1, the terminal remote test platform includes: the system comprises a real machine access module 31, a front end page module 32, a mapping module 33 and a testing module 34 which are connected in sequence. Wherein:

the real machine access module 31 is used for accessing a terminal to be tested;

a front-end page module 32, configured to input a remote test operation of the terminal to be tested by a user;

a mapping module 33, configured to map the remote testing operation input by the front-end page module to an actual operation on the terminal to be tested;

and the testing module 34 is used for testing the terminal to be tested accessed by the genuine machine access module according to the actual operation mapped by the mapping module.

The real machine access module 31 and the front end page module 32 are not located at the same physical location. Therefore, remote testing of the terminal to be tested in different places is realized.

Illustratively, the real machine access module 31 includes a connection port, through which a physical port of a terminal to be tested is connected to access the terminal to be tested. The connection port may specifically be: a USB port.

The front-end page module 32 can synchronously display the terminals to be tested and input the remote test operation of the user on the test terminals.

The remote test operation refers to an operation performed by a user on a terminal to be tested displayed by the front-end page module 32, and may be an operation performed by the user on a certain position of a terminal interface to be tested displayed by the front-end page module 32 or an operation performed by the user on clicking, sliding, pressing, continuously pressing, and the like of an actual key of the terminal to be tested. The interface refers to an interface currently opened by the terminal to be tested, and can be a starting interface of the terminal to be tested, an interface of an application program of the terminal to be tested and the like. The actual keys of the terminal to be tested can be actual physical keys such as a power-on key and a volume key. The user may input the remote test operation by a finger or an auxiliary device such as a mouse, a stylus, or the like.

The mapping module 33 maps the operation position, operation mode, and/or operation object of the remote test operation to the actual operation position, actual operation mode, and/or actual operation object of the target terminal.

In an example, the mapping module 33 may directly obtain an operation position, an operation manner, and/or an operation object of a remote test operation, and map the operation position, the operation manner, and/or the operation object of the remote test operation to an actual operation position, an actual operation manner, and/or an actual operation object of a target terminal.

In another example, the mapping module 33 decomposes the remote test operation before mapping, and then the mapping module 33 includes:

and the decomposition module is used for decomposing the remote test operation into an operation position, an operation mode and/or an operation object. When the user remote test operation is an operation performed on the terminal interface, the splitting operation splits the remote test operation into an operation position and an operation mode. The operation position is used for recording a coordinate position of the remote test operation of the user on the terminal displayed by the front-end page module 32, such as a click coordinate, a slide coordinate, and the like. The coordinate position may be a coordinate obtained based on a display interface coordinate system of the front-end page module 32, or a coordinate obtained based on a terminal interface coordinate system in the front-end page module 32, which is not limited in the present invention. The operation mode is used for distinguishing the remote test operation type of the user, such as clicking, sliding, pressing and the like. When the remote test operation is an operation on an actual key of the terminal, the decomposition operation decomposes the remote test operation into an operation object and an operation mode. The operation object refers to an actual key of the terminal displayed by the front end page module 32 for the user to remotely test and operate.

And the sub-mapping module is used for mapping the operation position of the remote test operation to the actual operation position of the terminal to be tested, mapping the operation mode of the remote test operation to the actual operation mode of the terminal to be tested, and mapping the operation object of the remote test operation to the actual operation object of the terminal to be tested.

For example, in the specific mapping process, for the mapping of the operation position, a coordinate transformation relationship between a coordinate system where the display interface of the front-end page module 32 is located and a coordinate system where the display interface of the target terminal is located may be stored in advance, and then the operation position of the remote test operation is mapped to the actual operation position of the terminal to be tested according to the coordinate transformation relationship. For the mapping of the operation modes, a mapping relationship that the operation mode of the remote test operation is mapped to the actual operation mode of the target terminal may be configured in advance, and the operation mode of the remote test operation is mapped to the actual operation mode of the target terminal through the mapping relationship. Of course, the operation mode of the remote test operation may be directly used as the actual operation mode of the target terminal without configuring the mapping relationship. And for the mapping of the actual operation object, mapping the operation object of the remote test operation to the actual operation object of the target terminal through packaging an ADB command. The actual operation object is a physical key of the target terminal. Among them, ADB (Android Debug Bridge) is a command line tool that can be used to operate a device to be tested. The invention simulates the actual operation object of the target terminal by packaging the ADB command, thereby mapping the operation object of the remote test operation to the actual operation object of the target terminal. Wherein the encapsulation may be: the complicated ADB commands are converted into simple operation buttons. Such as: adb shell input tap 5401104> click (540, 1104).

The test module 34 tests the target terminal through the ADB remote connection command. Wherein the ADB remote connect command may be selected according to a test target. The ADB remote connect command may be: viewing the device, installing the program, uninstalling the program, entering the device shell, restarting the device, mounting, and the like.

In another specific embodiment, the terminal remote control platform further includes: and the cluster deployment module is used for deploying a cluster for the terminal remote control platform so that the real machine access modules can access a plurality of terminals to be tested. The real machine access module 31 can be ensured to be accessed to a plurality of terminals to be tested in different places so as to realize multi-terminal access, the same user can respectively test the accessed terminals, and a plurality of users can also simultaneously and respectively test the accessed terminals to be tested.

Correspondingly, the front end page module 32 includes: a list occupation sub-module and a device synchronization sub-module,

the list occupation submodule is used for acquiring and displaying the accessed device information of a plurality of terminals to be tested and connecting a target terminal from the terminals to be tested according to user operation; the device information includes: device total, device name, device model, device manufacturer, device production date, device status, etc. The device states include: the connection is disconnected, the test is carried out, the use is stopped, and the user can visually see the state of each terminal to be tested through the state of the equipment. As shown in fig. 2a, the device information may be displayed in a device list. The user operation refers to an operation of selecting a target terminal from a plurality of terminals to be tested by a user.

And the equipment synchronization submodule is used for synchronously displaying a target terminal interface and inputting the remote test operation of a user on the target terminal interface. Specifically, the device synchronization sub-module performs mirror processing on all programs in the target terminal, and as shown in fig. 2b, all application icons (i.e., geometric patterns in fig. 2 b) of the target terminal are synchronously displayed on the display interface 10 of the terminal remote control platform. The user can see the interface 11 of the target terminal through the display interface 10 of the terminal remote control platform.

Furthermore, after the user finishes the test, the target machine can be released through the ending operation of the terminal remote test platform, and the storage space is saved. The platform front-end page module is further configured to input a termination operation of the user on the target terminal, and disconnect the connection with the target terminal. The ending operation may be a click operation of a button specified by a user in the terminal remote test platform, or the like.

As shown in fig. 3, the terminal remote testing platform provided by the present invention supports a user to log in through a PC, a mobile phone, and other terminals, a terminal to be tested and the user are in the same office area, and the terminal to be tested and the user are not in the same office area, and the terminal to be tested and the user are accessed to the terminal remote testing platform through a remote terminal for testing. Further, the present invention also includes: and debugging and executing the automation script remotely through the ADB.

Fig. 4 is a schematic flow chart of a terminal remote testing method provided by the present invention, where the method uses any one of the terminal remote testing platforms described above, as shown in fig. 4, the method includes the following steps:

s501, accessing a terminal to be tested through a real machine testing module;

s502, inputting the remote test operation of a user on the terminal to be tested through a front-end page module;

illustratively, the front-end page module includes a list occupation sub-module and an equipment synchronization sub-module, and this step includes:

s51, acquiring and displaying accessed device information of a plurality of terminals to be tested through the list occupation submodule, and connecting a target terminal from the terminals to be tested according to user operation;

and S52, synchronously displaying a target terminal interface through the equipment synchronization submodule, and inputting the remote test operation of the user on the target terminal interface.

S503, mapping the remote test operation into the actual operation of the terminal to be tested through a mapping module;

illustratively, the operation position, the operation mode and/or the operation object of the remote test operation are/is mapped to the actual operation position, the actual operation mode and/or the actual operation object of the target terminal. The actual operation object is a physical key of the target terminal, and the test mapping module maps the operation object into the actual operation object by packaging an ADB command.

S504, testing the terminal to be tested accessed by the real machine access module through the testing module according to the actual operation mapped by the mapping module.

Illustratively, the target terminal may be tested via an ADB remote connect command. Wherein the ADB remote connect command may be selected according to a test target. The ADB remote connect command may be: viewing the device, installing the program, uninstalling the program, entering the device shell, restarting the device, mounting, and the like.

Further, after the testing of the target terminal is completed, the method further includes: and inputting the ending operation of the user on the target terminal through the front-end page module, and disconnecting the target terminal.

Fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present invention, which includes a processor and a memory, where the memory stores a computer-executable program, and when the computer program is executed by the processor, the processor executes a live view switching method.

As shown in fig. 5, the electronic device is in the form of a general purpose computing device. The processor can be one or more and can work together. The invention also does not exclude that distributed processing is performed, i.e. the processors may be distributed over different physical devices. The electronic device of the present invention is not limited to a single entity, and may be a sum of a plurality of entity devices.

The memory stores a computer executable program, typically machine readable code. The computer readable program may be executed by the processor to enable an electronic device to perform the method of the invention, or at least some of the steps of the method.

The memory may include volatile memory, such as Random Access Memory (RAM) and/or cache memory, and may also be non-volatile memory, such as read-only memory (ROM).

Optionally, in this embodiment, the electronic device further includes an I/O interface, which is used for data exchange between the electronic device and an external device. The I/O interface may be representative of one or more of several types of bus structures, including a memory unit bus or memory unit tester, a peripheral bus, an accelerated graphics port, a processing unit, or a local bus using any of a variety of bus architectures.

It should be understood that the electronic device shown in fig. 5 is only one example of the present invention, and elements or components not shown in the above example may be further included in the electronic device of the present invention. For example, some electronic devices further include a display unit such as a display screen, and some electronic devices further include a human-computer interaction element such as a button, a keyboard, and the like. Electronic devices are considered to be covered by the present invention as long as the electronic devices are capable of executing a computer-readable program in a memory to implement the method of the present invention or at least a part of the steps of the method.

Fig. 6 is a schematic diagram of a computer-readable recording medium of an embodiment of the present invention. As shown in fig. 6, the computer-readable recording medium stores therein a computer-executable program, which, when executed, implements the live view switching method of the present invention described above. The computer readable storage medium may include a propagated data signal with readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A readable storage medium may also be any readable medium that is not a readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device. Program code embodied on a readable storage medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.

Program code for carrying out operations for aspects of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computing device, partly on the user's device, as a stand-alone software package, partly on the user's computing device and partly on a remote computing device, or entirely on the remote computing device or server. In the case of a remote computing device, the remote computing device may be connected to the user computing device through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computing device (e.g., through the internet using an internet service provider).

From the above description of the embodiments, those skilled in the art will readily appreciate that the present invention can be implemented by hardware capable of executing a specific computer program, such as the system of the present invention, and electronic processing units, servers, clients, mobile phones, test units, processors, etc. included in the system, and the present invention can also be implemented by a vehicle including at least a part of the above system or components. The invention may also be implemented by computer software executing the method of the invention, e.g. by test software executed by a microprocessor of a live device, an electronic test unit, a client, a server, etc. It should be noted that the computer software for executing the method of the present invention is not limited to be executed by one or a specific hardware entity, but may also be implemented in a distributed manner by hardware entities without specific details, and for the computer software, the software product may be stored in a computer readable storage medium (which may be a CD-ROM, a usb disk, a removable hard disk, etc.) or may be stored in a distributed manner on a network, as long as it can enable an electronic device to execute the method according to the present invention.

While the foregoing embodiments have described the objects, aspects and advantages of the present invention in further detail, it should be understood that the present invention is not inherently related to any particular computer, virtual machine or electronic device, and various general-purpose machines may be used to implement the present invention. The invention is not to be considered as limited to the specific embodiments thereof, but is to be understood as being modified in all respects, all changes and equivalents that come within the spirit and scope of the invention.

Claims (10)

1. A terminal remote test platform, comprising: real machine access module, front end page module, mapping module and the test module that connects gradually, wherein:

the real machine access module is used for accessing a terminal to be tested;

the front-end page module is used for inputting the remote test operation of the user on the terminal to be tested;

the mapping module is used for mapping the remote test operation input by the front-end page module into the actual operation of the terminal to be tested;

and the testing module is used for testing the terminal to be tested accessed by the real machine access module according to the actual operation mapped by the mapping module.

2. The remote terminal test platform of claim 1, wherein the live machine access module is not physically located at the same site as the front-end page module.

3. The terminal remote test platform of claim 1, further comprising: and the cluster deployment module is used for deploying a cluster for the terminal remote control platform so as to connect the real machine access modules to access the terminals to be tested respectively.

4. The terminal remote test platform of claim 3, wherein the front-end page module comprises a list occupancy sub-module and a device synchronization sub-module, wherein:

the list occupation submodule is used for acquiring and displaying the accessed device information of a plurality of terminals to be tested and connecting a target terminal from the terminals to be tested according to user operation;

and the equipment synchronization submodule is used for synchronously displaying a target terminal interface and inputting the remote test operation of a user on the target terminal interface.

5. The terminal remote test platform according to claim 2, wherein the mapping module correspondingly maps the operation position, the operation mode and/or the operation object of the remote test operation to the actual operation position, the actual operation mode and/or the actual operation object of the target terminal, respectively.

6. The remote terminal test platform according to claim 4, wherein the actual operation object is a physical key of the target terminal, and the test mapping module maps the operation object to the actual operation object by encapsulating the ADB command.

Preferably, the test module remotely connects the command to test the target terminal through the ADB.

7. The remote terminal test platform of claim 1, wherein the platform front-end page module is further configured to input a termination operation of a user on a target terminal and disconnect the target terminal.

8. A method for remote testing of a terminal, the method using the remote terminal testing platform according to any one of claims 1 to 7, comprising the steps of:

accessing a terminal to be tested through a real machine testing module;

inputting the remote test operation of a user on the terminal to be tested through a front-end page module;

mapping the remote test operation into an actual operation on the terminal to be tested through a mapping module;

and testing the terminal to be tested accessed by the real machine access module through a testing module according to the actual operation mapped by the mapping module.

9. An electronic device comprising a processor and a memory, the memory for storing a computer-executable program, characterized in that:

the computer executable program, when executed by the processor, performs the method of claim 8.

10. A computer-readable medium storing a computer-executable program, wherein the computer-executable program, when executed, implements the method of claim 8.

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