CN106294119B

CN106294119B - Test scheduling system and method and terminal equipment

Info

Publication number: CN106294119B
Application number: CN201510355020.5A
Authority: CN
Inventors: 胡文萍; 王少华; 倪槐清; 孔祥云; 张琪
Original assignee: Beijing Jingdong Century Trading Co Ltd; Beijing Jingdong Shangke Information Technology Co Ltd
Current assignee: Beijing Jingdong Century Trading Co Ltd; Beijing Jingdong Shangke Information Technology Co Ltd
Priority date: 2015-06-24
Filing date: 2015-06-24
Publication date: 2021-05-25
Anticipated expiration: 2035-06-24
Also published as: CN106294119A

Abstract

The invention relates to a test scheduling system, a test scheduling method and terminal equipment. The system and the method of the invention can self-adaptively complete the whole process of test scheduling on the portable mobile terminal. The terminal device for testing includes: the network environment detection scheduling module is used for detecting whether a wireless local area network environment capable of being connected with the Internet exists at present and/or judging whether the current network environment meets a preset communication condition; the test service calling module is used for accessing the test driving module of the test service end through the Internet; and the short message driving module is used for sending the information containing the test operation instruction and/or the test parameters to the test service end through the mobile communication network in a short message mode.

Description

Test scheduling system and method and terminal equipment

Technical Field

The present invention relates to an automatic test scheduling system and method, and more particularly, to a system and method capable of automatically invoking and executing a test procedure through a portable terminal device.

Background

Today's automated testing, such as interface testing, front-end page testing, and other more detailed testing processes, often take some open-source framework (e.g., testNg, an open-source automated testing framework, similar to Junit, which largely references Java annotations to define tests) to manage and run automated test scripts.

Currently, an existing management automation test operation device generally operates a testNg ng directly after an xml (extensive Markup language) file is edited in an IDE (Integrated Development Environment) such as Eclipse or idea (idea) and the like (Integrated Development Environment) on a PC, or receives user execution parameters through a Browser in a B/S (Browser/Server) mode, and then operates on an execution machine according to the execution parameters. Both of these approaches still have some drawbacks. Firstly, both of the existing two test schemes require the tester to complete the corresponding tests on the special test equipment such as the PC. Once the test equipment is separated from special test equipment such as a PC, the corresponding test cannot be carried out.

Secondly, for the scheme of running testNg through the IDE, the user needs to directly operate the IDE, the IDE cannot be separated from the IDE for execution, the tester has to have certain encoding capability, and the learning cost is high. For the B/S scheme, although the client can get parameters through the browser page without the IDE, the B/S scheme needs to have a network environment, such as wifi (wireless local area network), so the B/S scheme has a strong dependency on the network environment. When the user is in a non-network environment, the execution control of the tester cannot be performed.

As mentioned above, in the prior art, a tester must be stuck at a dedicated testing device such as a PC to complete the whole testing process, and if the tester is temporarily or permanently detached from the dedicated testing device such as the PC, the tester must only suspend or leave the testing process. This has created a demand for testing at any time with the use of existing portable mobile terminal devices, such as mobile phones.

Disclosure of Invention

The object of the present invention is to provide a novel automated test execution system and calling method which neither requires additional learning costs nor is it dependent on the existence of a network environment.

The technical solution of the present invention is based on the following concepts and mechanisms:

1. the comprehensive management automation test service mechanism based on the mobile phone APP enables the test process to be directly operated and realized on a portable mobile terminal (such as a mobile phone). The tester can leave the special test equipment such as PC completely, can accomplish the operations such as instruction input, test call, operation, control of the whole test process directly on the cell-phone. This greatly facilitates the tester.

2. The optional services include a mode of driving collecting test parameters via an APP page of the Internet or a mode of driving via a mobile communication network, such as a short message instruction mode. The APP end page collection test parameters refer to parameters required in the automatic test running process acquired through the front end page.

3. An adaptive scheduling environment in which multiple scheduling mechanisms coexist. Including but not limited to: for example, using web services in wifi or other network environments, and automatically switching to or enabling the short message scheduling driving mode when the network environment is lost.

Therefore, the invention provides a system and a method for completing the whole test process on a portable mobile terminal, preferably a portable mobile communication terminal with a short message function, such as a mobile phone.

In order to achieve the above object, the present invention provides the following technical solutions.

The invention relates firstly to a terminal device for testing, comprising: the network environment detection scheduling module is used for detecting whether a wireless local area network environment capable of being connected with the Internet exists at present and/or judging whether the current network environment meets a preset communication condition; the test service calling module is used for accessing the test service end through the Internet; and the short message driving module is used for sending the information containing the test operation instruction and/or the test parameters to the test service end through the mobile communication network in a short message mode.

The invention also relates to a test scheduling system, comprising: the testing system comprises a portable terminal for testing and a testing server. The portable terminal includes: the network environment detection scheduling module is used for detecting whether a wireless local area network environment capable of being connected with the Internet exists at present and/or judging whether the current network environment meets a preset communication condition; the test service calling module is used for accessing the test service end through the Internet; and the short message driving module is used for sending the information containing the test operation instruction and/or the test parameters to the test service end through the mobile communication network in a short message mode. The test service end comprises: the test task preprocessing module receives the information containing the test operation instruction and/or the test parameters and analyzes and/or converts the received information once finding the test requirement from the short message driving module; and the test driving module calls corresponding test services based on the test operation instructions and/or the test parameters analyzed in the test task preprocessing module, or calls the corresponding test services through the Internet by using the portable terminal equipment by a user.

The invention also relates to a self-adaptive test scheduling method, which comprises the following steps: s201: a network environment detecting step, configured to detect whether a wireless local area network environment meeting a communication requirement exists at a current location, and if so, enter step S203; otherwise, the next step S202 is carried out; s202: starting a short message driving mode, and inputting or embedding information containing test operation parameters into a short message format; s203: the information with the test operation instructions and/or parameters is sent from the client to the test server via the internet or via a mobile communication network.

The invention further relates to a short message instruction test driving method, which comprises the following steps: s101: inputting or embedding information containing test operation instructions and/or parameters into the short message content at the portable client; s102: sending the filled short message content from the client to a test server through a mobile communication network; s103: receiving short message content with test operation parameters from a client at a test service end; s104: analyzing the short message content, and restoring a test operation parameter; s105: and calling the test driving service according to the restored test operation parameters.

The invention further relates to a test server comprising: the test task preprocessing module receives information which contains a test operation instruction and/or a test parameter and is from the portable terminal equipment through a mobile communication network once finding that the test requirement from the portable terminal equipment exists, and analyzes and/or converts the received information; and the test driving module calls corresponding test services based on the test operation instructions and/or the test parameters analyzed in the test task preprocessing module, or calls the corresponding test services through the Internet by using the portable terminal equipment by a user.

The invention further relates to an electronic device for adaptive test scheduling, comprising:

one or more processors;

a storage device for storing one or more programs,

when executed by the one or more processors, cause the one or more processors to perform at least the following:

s201: a network environment detecting step, configured to detect whether a wireless local area network environment meeting a communication requirement exists at a current location, and if so, enter step S203; otherwise, the next step S202 is carried out;

s202: starting a short message driving mode, and inputting or embedding information containing test operation parameters into a short message format;

s203: the information with the test operation instructions and/or parameters is sent from the client to the test server via the internet or via a mobile communication network.

The invention further relates to a computer-readable medium, on which a computer program is stored, which program is realized by a processor at least with the following steps:

The invention further relates to an electronic device driven by the short message instruction test, which comprises:

one or more processors;

a storage device for storing one or more programs,

s101: inputting or embedding information containing test operation instructions and/or parameters into the short message content at the portable client;

s102: and sending the filled short message content from the client to the testing server through the mobile communication network.

S103: receiving short message content with test operation parameters from a client at a test service end;

s104: analyzing the short message content, and restoring a test operation parameter;

s105: and calling the test driving service according to the restored test operation parameters.

The technical scheme of the invention has the following beneficial effects:

1. the whole process management of calling, running, monitoring and the like of the automatic test can be controlled by using the mobile phone without a PC end.

2. The driving method can be adaptively selected according to the network environment, i.e. via a wireless local area network (e.g. wifi) or via a mobile communication network (e.g. sms).

Drawings

FIG. 1 is a prior art architecture diagram or process flow diagram for implementing automated testing on a PC;

FIG. 2 is a diagram of a test system architecture according to the present invention;

FIG. 3 is a diagram of the test system architecture of the present invention on a portable client;

FIG. 4 is a flow chart of the present invention running on a mobile phone client test system;

FIG. 5 is a diagram of a test service end system architecture according to the present invention;

FIG. 6 is a flow chart of a process of testing a server according to the present invention;

FIG. 7 is a flowchart of another embodiment of the test service of the present invention;

FIG. 8 illustrates a short message command driving method according to the present invention;

FIG. 9 is a diagram of an adaptive test scheduling method according to the present invention.

The present invention will now be described in detail with reference to the drawings, in which exemplary embodiments of the invention are shown. Like reference numerals correspond to like elements throughout. The description will not be repeated for the same elements in each drawing.

Detailed Description

Before the embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of "including" and "comprising" and variations thereof as used herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items.

One or more embodiments of the present invention will be described hereinafter. It should be noted that these and any other embodiments are exemplary and are intended to be illustrative of the invention rather than limiting. While the present invention is capable of being applied to a wide variety of different types of systems, it is not possible to include all of the possible embodiments and scenarios of the present invention in this disclosure. Depending on the application, the functionality of the various circuits, devices or components described herein may be implemented in hardware (including discrete components, integrated circuits and systems on a chip), firmware (including application specific integrated circuits and programmable chips), software, or combinations thereof. Many alternative embodiments of the invention will be apparent to those of ordinary skill in the art upon reading this disclosure.

Aspects of the described embodiments will be described as software modules or components. As used herein, a software module or component may include any type of computer instruction or computer executable code located within a memory device and/or transmitted as electronic signals over a system bus or wired or wireless network. A software module may, for instance, comprise one or more physical or logical blocks of computer instructions, which may be organized as a routine, program, object, component, data structure, etc., that performs one or more tasks or implements particular abstract data types.

Preferred embodiments of the present invention will be described below in conjunction with the detailed description.

The invention can install the test application program APP on the portable mobile terminal such as a mobile phone. When the test program is run, the test script can be run by means of, for example, a B/S scheme as in the prior art in a wireless local area network environment, for example, a wireless wifi environment. In this case, the operation of the actuator is exactly the same as in the prior art. Namely, the internet can be accessed through a wireless network such as wifi, and then the test service terminal is accessed to call the test driving module or directly start corresponding test service or process and the like.

However, since the tester cannot ensure that the network environment is always on or not constantly stable, an alternative solution is needed to smoothly perform the test.

The invention provides a short message driving solution based on a mobile communication network. That is, when there is no wireless network environment such as wifi, or the wireless network environment is unstable and insufficient to complete the test, the test process can be smoothly completed by the mobile terminal, especially the function of the portable mobile terminal, such as the short message function of the mobile phone.

To this end, the test system of the present invention comprises at least two components: a portable client terminal 1 and a testing server terminal 2. The portable client, i.e. the control end used and operated by the tester during the test operation process, is equivalent to the PC end in the prior art. The testing server side is an actual testing task execution side (namely an execution machine side), calls and executes a testing process after receiving a testing operation instruction of a client testing person, and feeds back information such as testing parameters, data, results and the like obtained in the testing process to the testing person at the client. As is known in the art, the test service may be located on a server or any other location suitable for testing, such as a PC or other hardware device that may be at a test site or remotely located.

As shown in fig. 3, the portable client 1 of the present invention includes at least the following modules: an input module or interface processing module 11, a network environment detection scheduling module 12, a test service calling module 13, and a short message driving module 14.

The interface processing module 11 is used for processing tasks such as interaction with a user and test driving parameter filling, and is an input module. The user fills in relevant parameters submitted to the background test through the interface processing module, including but not limited to: the test set of the test, the test case number contained in the test set, the test execution sequence, the specified running time of the test script and the like. These parameters or combinations thereof may also be pre-stored at the execution machine side or at designated storage locations and assigned a unique code for each parameter or group of parameters. At the client, the user need only enter or fill in the code corresponding to each or each set of parameters, without writing and/or transmitting the details of each or each set of parameters. This may greatly simplify the input process for the user while simplifying the transmission.

The network environment detection scheduling module 12 is used to detect whether the current network environment has a wireless network environment, such as wifi, etc., via which the internet can be directly accessed. The wifi may be a wifi environment connected via a wireless gateway or mobile communication data traffic via the handset itself. The network environment probe scheduling module 12 may also be configured to determine if the current network environment meets predetermined communication conditions, if desired.

If the wireless network environment such as wifi is not available, the short message driving module is automatically called or switched; if the test service calling module is available, the test service calling module of the test service end can be directly called through the Internet, or corresponding test service or test process can be called/started. As long as it can be determined whether the current network environment has wireless communication functions such as wifi, and/or whether predetermined network parameter requirements can be met, the function of the network environment detection scheduling module can be implemented by using any existing or future possible network environment detection method or corresponding equipment.

The test service invoking module 13 is used to invoke a test service interface, i.e. a test driver module of the test service end, directly according to the parameters and the instruction content received from the interface processing module.

Referring to fig. 4, when the network environment detection scheduling module 12 does not detect wifi or other network environments, the system may automatically switch to or enter the short message driving mode.

In order to facilitate the recognition or operation of the execution machine, a specific format can be defined in the short message driver module 14 to represent the test operation parameters required by the user. Any pre-customized standard or non-standard command format, or any command format customized by the user, may be used as long as identification and transmission of the test operating parameters is enabled. As an example, the short message driver module may adopt the following instruction format:

test case number + running time + running mode

The corresponding instructions and/or options in the short message format may be automatically filled according to the filled-in option contents such as the test parameters and instructions received in the interface processing module 11. And then the message containing the short message formats is directly or packaged and sent to the corresponding test service number or test service end 2.

For the input timing of the test parameters and/or the instructions, the input time of the test parameters and/or the instructions may be set before (as shown in fig. 4) or after the network environment detection is performed according to actual needs, or the input may be before or during the short message driving module is called (or the short message driving mode is entered), but before the instructions and/or the parameters are sent from the client to the test service end.

In order to adapt the portable client terminal of the invention, the invention makes corresponding improvement on the test server terminal 2 of the test system. Referring to fig. 5, the testing server 2 of the present invention at least includes: a test task preprocessing module 21, and a test driver module 22.

The test task preprocessing module 21 may discover whether there is a test requirement via the mobile communication network by scanning a task of the short message gateway, for example. Referring to fig. 6, once a test requirement is found, the content of the test signal is analyzed, and the analyzed test command and/or parameter is converted into a test command or parameter that can be executed by the test server. Subsequently, the test driver service is invoked by the test service based on the parsed and/or translated test instructions and/or parameters.

Fig. 7 shows a modified embodiment of the embodiment of fig. 6. In which the embodiment of figure 7 adds a maximum retry mechanism in order to avoid the occurrence of dead cycles. If the command signal which can not be received all the time exceeds a certain preset value N, the test can be directly finished.

The test driver module 22 of the test service 2 is a Remote interface (e.g., RPC, Remote Procedure Call) service. Any suitable service mode such as a Hessian interface or Webservice can be used as long as the execution of the test driver module can be realized. The Hessian is a remote call interface protocol, is a mainstream technology for solving the problems of integration and interoperation of a heterogeneous platform system in the existing web service technology, and encapsulates a protocol message in an HTTP channel for transmission, so that the protocol message is not limited by a firewall. Meanwhile, local data is coded and converted into binary data, so that the data volume is relatively small, and the method is suitable for data exchange of large data volume among distributed systems. Webservice is an application that exposes to the outside an API that can be called through the Web. The Web call may be made using a programmed method.

The invention also relates to a short message instruction test driving method. Referring to fig. 8, the method at least includes the following steps:

The test driving method may further include:

s104: analyzing the short message content, and reducing test operation parameters, or if necessary, further converting the parameters into test instructions and/or parameters which can be identified and executed by the test server;

s105: and calling the test driving service according to the analyzed or converted test operation parameters.

In addition, the short message instruction test driving method may further include a feedback step of: and feeding back information such as test operation monitoring data, monitoring parameters, fault information, test results and the like to a tester at the client in real time, in batches or at one time so as to know all or part of the process of test operation or be used for processing services such as test interruption and the like.

Further, the short message instruction test driving method of the present invention may further include the steps of: after receiving the feedback from the testing service end, the mobile phone client side edits and sends a new short message instruction, and instructs the testing service end to execute, for example, but not limited to, the following operations: new test instructions, repeat a test, or interrupt, or terminate an existing test, etc.

Wherein, the communication between the client and the test server further comprises: an encryption step for encrypting the transmitted information by an encryption measure.

With continued reference to fig. 9, the present invention further relates to a method for adaptive test scheduling, comprising the following steps:

The method may further comprise the steps of:

s204: receiving the information with the test scheduling instruction at the test server, analyzing and restoring a test operation instruction or parameter, or further converting the parameters into test instructions and/or parameters which can be identified and executed by the test server if necessary; and

s205: and calling the test driving service according to the analyzed or converted test operation instruction and/or parameter.

Wherein before the step S201, the method further comprises: and an interface processing step, wherein the user inputs the relevant parameters and/or instructions of the test to be submitted to the background processing through the interface processing step as described above.

Furthermore, as previously mentioned, the present invention may also include, but is not limited to: a feedback step, a new instruction step and the like which can be interacted between the client and the test server, an encryption step which can be executed by a single end and the like.

The present invention may be adapted to a variety of different software/hardware testing application environments, such as but not limited to: http interface, dubbo interface, Webservice interface, web page test, etc. If the hardware needs to be tested, an execution machine can be connected with the tested hardware equipment, and the driving and management of the test execution are also completed in the mode.

Although various preferred embodiments have been described, it will be apparent to those skilled in the art that appropriate changes and modifications may be made without departing from the spirit and scope of the invention.

Claims

1. A test terminal device comprising:

the network environment detection scheduling module is used for detecting whether a wireless local area network environment capable of being connected with the Internet exists at present and/or judging whether the current network environment meets a preset communication condition;

the test service calling module is used for accessing the test service end through the Internet and sending a test requirement to the test service end to call or start a corresponding test service or process when a wireless local area network environment meeting the communication requirement is provided; and

the short message driving module is used for sending test requirement information containing a test operation instruction and/or test parameters to a test service end in a short message mode through a mobile communication network so as to call or start corresponding test service or process when a wireless local area network environment meeting communication requirements is not available;

if the test requirement which cannot be received exceeds a certain preset value, the test server end directly ends the test.

2. The test terminal device of claim 1, further comprising: the interface processing module is used for inputting or filling in test driving parameters in a short message format; and the test service calling module or the short message driving module receives test parameters and/or test instructions from the interface processing module.

3. The test terminal device according to claim 1 or 2, wherein the wireless local area network environment is wifi.

4. A test scheduling system, comprising: a portable terminal for testing and a testing server,

the portable terminal includes:

the short message driving module is used for sending test requirement information containing a test operation instruction and/or test parameters to a test service end in a short message mode through a mobile communication network so as to call or start corresponding test service or process when a wireless local area network environment meeting communication requirements is not available; and

the test service end comprises:

the test task preprocessing module receives the information containing the test operation instruction and/or the test parameters and analyzes and/or converts the received information once finding the test requirement from the short message driving module; if the test requirement is not received and exceeds a certain preset value, the test is directly finished;

and the test driving module calls corresponding test services based on the test operation instructions and/or the test parameters analyzed in the test task preprocessing module, or calls the corresponding test services through the Internet by using the portable terminal equipment by a user.

5. The system of claim 4, wherein the portable terminal device further comprises: the interface processing module is used for inputting or filling in test driving parameters in a short message format; and the test service calling module or the short message driving module receives test parameters and/or test instructions from the interface processing module.

6. The system of claim 4 or 5, wherein the wireless local area network environment is wifi.

7. A self-adaptive test scheduling method comprises the following steps:

s202: starting a short message driving mode, and inputting or embedding test requirement information containing test operation parameters into a short message format;

s203: sending information with test operation instructions and/or parameters from the client to the test server via the internet or via a mobile communication network to call or start corresponding test services or processes;

8. The adaptive test scheduling method of claim 7, said method further comprising the steps of:

s204: receiving information with a test scheduling instruction at a test service end, and analyzing a test operation instruction or parameter; and

s205: and calling the test driving service according to the analyzed test operation instruction or parameter.

9. The adaptive test scheduling method of claim 7 or 8, wherein, at the latest before said step S203, further comprising: and an interface processing step, wherein the interface processing step is used for inputting or filling in the test driving parameters in a short message format.

10. An electronic device for adaptive test scheduling, comprising:

one or more processors;

a storage device for storing one or more programs,

when executed by the one or more processors, cause the one or more processors to implement the method of any one of claims 7-9.

11. A computer-readable medium, on which a computer program is stored, which, when being executed by a processor, carries out the method according to any one of claims 7-9.