KR101453988B1 - The method for testing interoperability among DLNA devices - Google Patents

Abstract

According to an embodiment of the present invention, a method for testing interoperability among DLNA devices comprises the steps of: inputting, to a server, an XML file for generating a web browser for a test on interoperability between a tested device and an interlocked device capable of sharing a DLNA function therewith; allowing the server to generate a web browser including at least one webpage where a procedure for performing a test on interoperability among DLNA devices is described, based on the XML file; allowing an apparatus for performing the interoperability test to receive the generated web browser, execute the received web browser, and display a procedure for performing the interoperability test; and receiving an input of information required for progressing the displayed procedure, and performing the test on interoperability between the tested device and the interlocked device based on the input information.

Description

[0001] The present invention relates to a method for testing interoperability among DLNA devices,

An embodiment relates to an interoperability test method between DLNA devices and an XML file used in an interoperability test method between DLNA devices.

DLNA is an abbreviation of Digital Living Network Alliance. It is a group that defines protocols for sharing and reproducing various media contents (music / photo / video) regardless of manufacturer and product type through DLNA certified network. In addition, the function of sharing and reproducing various media contents regardless of the manufacturer and product type is called a DLNA function through a network, and a device equipped with a DLNA function is also referred to as a DLNA device.

In theory, devices equipped with the DLNA function should be able to share and reproduce various multimedia contents with each other. However, even if the DLNA function is installed, the multimedia content may not be shared. That is, a user tries to share a multimedia content with another device equipped with the DLNA function using the device having the DLNA function owned by the user, but may not share content with another device. One of the causes of this phenomenon is that the operation methods between the two devices are different from each other. However, this cause is only an exemplary cause of one of several causes, and may not be the precise cause.

It is not easy to accurately grasp the cause of the phenomenon in which the content is not shared among the DLNA function-equipped devices, and it is also difficult to determine which of the two devices has the cause. Also, it takes a lot of time and money to understand the cause, and there is a restriction that the physical distance between the two devices should be close to each other.

Embodiments can provide a method of interoperability testing between DLNA devices capable of testing DLNA devices at low cost.

It is also possible to provide a method of interoperability testing between DLNA devices capable of testing DLNA devices in a short period of time.

It also provides a method for testing interoperability between DLNA devices that can accurately analyze the cause of failure of DLNA device testing.

In addition, it can provide a method of interoperability testing between DLNA devices that can shorten the time to analyze the cause of failures in performing DLNA device tests.

It is also possible to provide a method for interoperability testing between DLNA devices capable of testing DLNA devices without limitation of physical distance.

An interoperability test method for DLNA devices according to an embodiment includes: inputting an XML file to a server; Creating a web browser including at least one web page for performing interoperability testing among DLNA devices according to the XML file; Executing the generated web browser in an apparatus performing the interoperability test; And performing the interoperability test according to contents described in the web browser.

In addition, the XML file may include a test case and a test suite.

In addition, the test suite includes <TestSuite> which declares the specification for the test suite, <Parameters> which represents the test suite parameter bundle, <Purpose> which describes the purpose of the test suite, and <Testcases> can do.

The < Parameter > includes at least one < Parameter > in which specifications for factors applicable to the entire test suite are described at the time of automatic execution of the test, A Signature indicating a parameter name for output, and a Description indicating a description.

The < Testcases > includes at least one < Testcase > in which a test case for performing the interoperability test is described, A filename indicating a file name, and numOfDevice indicating the number of devices required for performing a test case.

In addition, the test case includes a <Testcase> declaring that the test case is a specification, <Parameters> a test case parameter bundle, <Purpose> describing the purpose of the test case, InitialCondition &gt;, &lt; Devices &gt; describing the device bundle, and &lt; Procedure &gt; describing the test procedure bundle.

The < Parameter > includes at least one < Parameter > in which a specification for an applicable parameter for the entire test case is written when the test is automatically performed, A Signature indicating a parameter name for output, and a Description indicating a description.

The < Device > includes at least one < Device > in which device information necessary for performing a test case is described, < Device > is an Id indicating a device identifier, a Type indicating a device type, And a Role indicating a role in DLNA.

The <Step> includes a <Step> describing a test procedure, and the <Step> is a <Step> describing whether or not a DLNA related message is transmitted and received, &Lt; MessageVerdict > for describing the result of the user's response, &lt; Field &gt; for describing an item for which the value of the field data should be confirmed, &lt; UserConfirmVerdict &&Lt; User InputVerdict &gt; in which the specification is described.

According to an embodiment of the interoperability testing method between DLNA devices, testing of a DLNA device can be performed at low cost.

Further, the test of the DLNA apparatus can be performed in a short time.

In addition, it is possible to accurately analyze the cause of failure of DLNA device test execution.

In addition, it is possible to shorten the time to analyze the cause of the failure of DLNA device test execution.

In addition, the DLNA device test can be performed without being limited by physical distance.

1 is a diagram schematically illustrating an environment in which an interoperability test system between DLNA devices according to the first embodiment is implemented.
2 is a diagram showing a configuration of an interoperability test system between DLNA devices according to the first embodiment.
3 is a diagram schematically illustrating an environment in which an interoperability test system between DLNA devices according to a second embodiment is implemented.
4 is a diagram showing a configuration of an interoperability test system between DLNA devices according to the second embodiment.
5 is a flowchart illustrating a method for testing interoperability among DLNA devices according to an embodiment.
6 is a diagram illustrating a structure of an XML file test suite 600 used in the interoperability testing method between DLNA devices according to the embodiment.
FIG. 7 is a diagram illustrating the structure of a test case 700 of an XML file used in the interoperability test method between DLNA devices according to the embodiment.
FIG. 8 is a diagram illustrating an embodiment in which the structure of the test suite 600 of the XML file used in the interoperability testing method between the DLNA devices according to the embodiment is applied.
9 is a diagram showing an embodiment in which the structure of the test case 700 of the XML file used in the interoperability test method between the DLNA devices according to the embodiment is applied.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of example, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the location or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention may be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numbers may refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

[Interoperability test system between DLNA devices]

1. First Embodiment

1 is a diagram schematically illustrating an environment in which an interoperability testing system 10 between DLNA devices according to the first embodiment is implemented. 2 is a diagram showing a configuration of an interoperability test system 10 between DLNA devices according to the first embodiment. Hereinafter, the operation of the interoperability testing system 10 between the DLNA devices according to the first embodiment will be described with reference to FIGS. 1 and 2. FIG.

The interoperability test system 10 between DLNA devices according to the first embodiment may include a test apparatus 100 and a test server 200.

The test apparatus 100 may be located where a user is to perform an "interoperability test" (hereinafter "test") of a DLNA device. The test apparatus 100 can perform wireless communication with the test target apparatus 120 through the first network apparatus 110. [ Here, the test target device 120 may be a device for checking whether the DLNA function normally operates. The device under test 120 is a device that is supposed to be equipped with a DLNA function, and the type thereof is not particularly limited. In general, it may be a smart phone, but it is not necessarily limited to a TV, a computer, a notebook, a PDA, a camera, and the like.

As the first network device 110, a device capable of supporting wireless communication between the test apparatus 100 and the test target apparatus 120 may be used. For example, a wired / wireless Internet router can be used. The test apparatus 100 and the device under test 120 may exist in an area capable of performing wireless communication through the first network device 110. [ The area where the test apparatus 100, the first network device 110, and the device under test 120 coexist may be referred to as "remote location ".

The test apparatus 100 and the test server 200 are connected to the Internet, and the test apparatus 100 and the test server 200 can transmit and receive various kinds of data to the Internet. For example, the test apparatus 100 and the test server 200 can transmit and receive DLNA-related data and contents.

The test server 200 can be located in a place where a manager managing the device to be tested (hereinafter referred to as "interworking target device") exists. The interworking target device 221 may be a DLNA device that performs a DLNA function. Various types of devices can be used as the interlocking target device 221, and the kind thereof is not particularly limited. For example, a smart phone, a TV, a computer, a notebook, a PDA, a camera, and the like can be used. The interworking target apparatus 221 may be composed of at least two types of interworking target apparatuses. The set of at least two types of interworking target devices may be a "set of interworking target devices ". 1 and 2 show four types of interlocking target devices 221, 222, 223 and 224 as one interlocking target device set 220, the number of interlocking target devices 220 constituting the interlocking target device set 220 Is not necessarily limited thereto.

The test server 200 can perform wireless communication with the set 220 of interlocking target devices through the second network device 210. [ As the second network device 210, a device capable of supporting wireless communication between the test server 200 and the interworking target device set 220 may be used. For example, a wired / wireless Internet router can be used. The test server 200 and the interworking target device set 220 may exist in an area capable of performing wireless communication through the second network device 210. [ The area in which the test server 200, the second network device 210, and the interlocking target device set 220 coexist may be referred to as a "test laboratory ".

The test apparatus 100 may include a client module 106, a device state simulation module 107, and a device protocol analysis module 108. The test server 200 may also include a server module 202, a server state simulation module 203, and a server protocol analysis module 204. The client module 106, the device status simulation module 107 and the device protocol analysis module 108 may be stored in the test apparatus 100, in the form of firmware, or may be input from the outside. The same applies to the server module 202, the server state simulation module 203, and the server protocol analysis module 204.

The client module 106 may implement the environment for the test execution of the DLNA device in the test apparatus 100. For example, it is possible to generate a web browser capable of interacting with a computer based test (CBT), and provide the generated web browser to the test apparatus 100 through the display unit 103. The web browser may also be created by the server module 202 of the test server 200 and executed by the client module 106 on the test device 100. The web browser can be composed of a plurality of web pages including test execution procedures. In the case of conducting the test execution procedure, it may happen that the user's input is required. In this case, the user can input information necessary for proceeding with the test execution procedure. For example, the user can proceed with a test execution procedure for the test target device 120 by inputting information required in the web browser displayed on the display unit 103 through the input / output unit 104. [ The input / output unit 104 may be a keyboard, a mouse, a speaker, a microphone, a stylus, or a touch pen, but is not limited thereto.

The server module 202 can perform a test according to a test execution procedure performed through a web browser. More specifically, the server module 202 can create a test project and communicate test items and procedures to the test apparatus 100. [ In addition, a judgment report of the test execution result may be generated.

The device status simulation module 107 can provide an environment such that the interworking target device 221 belonging to the interworking target device set 220 existing in the "test laboratory" is present at the " remote location ". More specifically, the device status simulation module 107 can provide information on the interworking target device 221. [ The information on the interworking target device 221 may include the status information of the interworking target device 221. [ For example, information on the interlocking target device 221 such as the appearance of the interlocking target device 221, the screen of the interlocking target device 221, the sound of the interlocking target device 221, and the like is provided through the display unit 103 . The information on the interlocking target device 221 can be provided each time the state of the interlocking target device 221 is changed. Further, the information on the interlocking target device 221 can be provided in real time, continuously. Therefore, the user can recognize that the interlocking target device 221 operates in the vicinity of the test target device 120. [

The information on the interlocking target device 221 can be generated using the DLNA related data generated by the interlocking target device 221 belonging to the interlocking target device set 220. [ The DLNA-related data may include all of a series of data transmitted and received between the devices to perform the DLNA function. The transceiver unit 105 can receive the DLNA-related data generated by the interlocking target apparatus 221 belonging to the interlocking target apparatus set 220 from the test server 200. [

The device state simulation module 107 can provide information on the interworking target device 221 using DLNA-related data received from the test server 200. [ At this time, a program module for providing DLNA-related data to the server state simulation module 203 of the test server 200 may be operated in the interworking target device 221. That is, the DLNA-related data generated in the interworking target device 221 is provided to the server state simulation module 203 by the program module existing in the interworking target device 221, and this can be provided to the testing device 100 .

Further, the information on the interlocking target device 221 can be generated through a camera, a microphone, or the like located inside / outside the interlocking target device 221. The state of the interworking target device 221 such as a screen, a sound, and the like may be recorded and recorded through a camera, a microphone, and the like, and then stored in the test server 200 as a certain type of data. The data stored in the test server 200 may be provided to the test apparatus 100.

The device status simulation module 107 can communicate information about the device under test 120 of "remote" to the test server 200. More specifically, the device state simulation module 107 can provide the DLNA-related data generated by the test target device 120 to the test server 200 via the transmission / reception unit 105. Accordingly, the server state simulation module 203 of the test server 200 can operate in the same manner as the test target device 120.

The interworking target device 221 belonging to the interworking target device set 220 may include a remote control agent module. The remote control agent module can operate according to an externally inputted signal. Therefore, in the test apparatus 100, a signal for controlling the interlocking target device 221 can be output to the interlocking target device 221, and the interlocking target device 221 can be controlled remotely.

The test apparatus 100 may provide the display unit 103 with a web browser generated through the client module 106. [ The display unit 103 may display information on the state of the interlocking target device 221 provided by the device state simulation module 107. [ The user can proceed with the test execution procedure through the web browser by referring to the information on the state of the interworking target device 221, and may control the interworking target device 221 remotely in this process.

As described above, according to the interoperability testing system 10 between the DLNA devices according to the first embodiment, even if the device under test 120 and the device 221 to be interlocked are physically far apart, The test can be carried out without receiving. Since the test laboratory includes the interworking target device set 220 including the various types of interworking target devices 221, the user can set the test target device 120 and the interworking target devices 221, 222, 223, and 224). As described above, since the cost for purchasing the interworking target apparatuses 221, 222, 223, and 224 is not generated, the test can be performed at low cost. In addition, if the Internet access is possible, the test procedure can be performed through a web browser under any circumstances. In addition, since the test can be performed using the Internet, the test can be performed at a high speed.

The device protocol analysis module 108 analyzes the DLNA data relating to the interworking target device 221 received from the test server 200 or the DLNA data generated by the test target device 120 and determines whether the interworking target device 221 or the test It can be determined whether the target device 120 complies with the DLNA-related protocol. In general, DLNA devices must adhere to DLNA-related protocols in order to share content. The test apparatus 100 can store data conforming to the DLNA-related protocol in advance. More specifically, the test apparatus 100 can sequentially store a series of DLNA-related data conforming to the DLNA-related protocol in the storage unit 102. [

The device protocol analysis module 108 compares DLNA-related data conforming to the DLNA-related protocol with DLNA-related data generated from the device under test 120 to determine whether the DLNA-related data generated from the test- It can be judged whether or not it conforms. At this time, the device protocol analyzing module 108 compares the contents and format of the DLNA-related data to determine whether the DLNA-related data conforms to the DLNA protocol.

As a result of the comparison, if the DLNA-related data match, the DLNA-related data generated in the device under test 120 can be determined to comply with the DLNA-related protocol. The determination result can be displayed on the display unit 103. [ Accordingly, the user can finish the test on the device under test 120 and recognize the test result.

As a result of the comparison, if the DLNA-related data do not match, it can be determined that the DLNA-related data generated in the device under test 120 does not comply with the DLNA-related protocol. In this case, the test determination result can be displayed through the display unit 103. [ More specifically, if a test result error occurs, the cause of the error can be indicated to be in the device under test 120. [ In addition, a portion where an error has occurred can be displayed among the DLNA-related data generated in the device under test 120. [ In addition, it may request modification of the part where the error occurred.

The device protocol analysis module 108 compares the DLNA-related data conforming to the DLNA-related protocol with the DLNA-related data generated from the interworking target device 221 and outputs the DLNA-related data generated from the interworking target device 221 You can judge compliance with the protocol. As a result of the comparison, if the DLNA-related data do not match, it can be determined that the DLNA-related data generated in the interworking target device 221 does not comply with the DLNA-related protocol. However, the specific test determination result may be requested to the test server 200, and the test server 200 may be requested to analyze the cause of the error. The server protocol analysis module 204 can analyze the cause of the error according to the request of the test apparatus 200.

DLNA-related data originating from the device under test 120 may be transferred to the server status simulation module 203 of the test server 200 via the device status simulation module 107. [ DLNA-related data generated from the interworking target device 221 may be transmitted to the device state simulation module 107 through the server state simulation module 203. [ Therefore, the device status simulation module 107 of the test apparatus 100 and the server status simulation module 203 of the test server 200 can hold the same DLNA-related data. The device protocol analysis module 108 compares the DLNA related data held by the test server 100 and the test server 200 and determines whether or not an error has occurred in the DLNA related data transmission / reception. More specifically, if the DLNA-related data held by the test apparatus 100 and the test server 200 are different from each other, it can be determined that an error has occurred in DLNA-related data transmission / reception through the Internet. In this case, the test apparatus 100 and the test server 200 can perform the test again.

As described above, according to the interoperability test system 10 between the DLNA apparatuses according to the first embodiment, it is possible to accurately analyze the cause of failure of the DLNA apparatus test execution. In addition, since the cause of the failure is analyzed through the device protocol analysis module 108, it is possible to analyze the cause of the failure within a short time.

2. Second Embodiment

3 is a diagram schematically illustrating an environment in which an interoperability test system between DLNA devices according to a second embodiment is implemented. 4 is a diagram showing a configuration of an interoperability test system between DLNA devices according to the second embodiment. Hereinafter, the operation of the interoperability test system between the DLNA devices according to the second embodiment will be described with reference to FIGS. 3 and 4. FIG. More specifically, the operation of the interoperability test system between the DLNA devices according to the second embodiment will be described focusing on the operation distinguished from the interoperability test system between the DLNA devices according to the first embodiment.

The interoperability test system 20 between DLNA devices according to the second embodiment may include a test apparatus 300 and a test server 400.

The test apparatus 300 may include a client module 306 and a device protocol analysis module 308. The test server 400 may include a server module 402 and a server protocol analysis module 404. The client module 306 and the device protocol analysis module 308 may be stored in the test apparatus 300, in the form of firmware, or may be input from the outside. This can be equally applied to the server module 402 and the server protocol analysis module 404.

The client module 306 may implement an environment for testing the DLNA device in the test device 300. For example, it is possible to generate a web browser capable of interaction such as CBT (Computer Based Test) and provide the generated web browser to the test apparatus 300 through the display unit 404. The web browser includes a test execution procedure, and the user can proceed with the test execution procedure through the web browser.

As the first network device 310, a device capable of supporting wireless communication between the test device 300 and the device under test 320 may be used. For example, a wired / wireless Internet router can be used. The test apparatus 300 and the test target apparatus 320 may exist in an area capable of performing wireless communication through the first network device 310. [ The area in which the test apparatus 300, the first network apparatus 310, and the test subject apparatus 320 coexist may be referred to as "remote location ".

In addition, a network virtualization technique may be applied to the first network device 310. Accordingly, the first network device 310 is connected to the test target device 320 of the "remote location ", the second network device 410 of the" test laboratory ", the interworking target device 421 of the & All may operate as existing in the same network.

As the second network device 410, a device capable of supporting wireless communication between the test server 400 and the interlocking target device 421 may be used. For example, a wired / wireless Internet router can be used. The test server 400 and the interworking target device 421 may exist in an area capable of performing wireless communication through the second network device 410. The area where the test server 400, the second network device 410 and the interlocking target device 421 coexist may be referred to as a "test laboratory ".

Network virtualization may be applied to the second network device 410 in the same manner as the first network device 310. Accordingly, the second network device 410 is connected to the test target device 320 of the "remote location", the second network device 410 of the "test laboratory", the interworking target device 421 of the "test laboratory" All may operate as existing in the same network.

In this way, by applying the network virtualization technology in the first network device 310 and the second network device 410, the test target device 320 and the interworking target device 421 can perform the DLNA function operating in the near- . &Lt; / RTI &gt;

When the test execution procedure is performed through the web browser created and provided by the client module 306, the test target device 320 and the interworking target device 421 are connected to the first network device 310 to which the network virtualization technology is applied, 2 network device 410. The DLNA-related data can be transmitted / Through this process, the test subject device 320 and the interlocking target device 421 can perform the test.

Also, the server module 402 may perform the test according to a test execution procedure performed through a web browser. More specifically, the server module 402 can create a test project and communicate test items and procedures to the test device 300. In addition, a judgment report of the test execution result may be generated.

According to the interoperability testing system 20 between the DLNA devices according to the second embodiment, even if the device under test 320 and the interlocking target device 421 are physically distant from each other, The test can be performed. Since the test laboratory is provided with the interlocking target device set 420 including the various types of interlocking target devices 221, the user can set the test target device 320 and the interworking target devices 421, 422, 423, and 424), it is possible to perform the test at a low cost. Also, if the network virtualization technology can be applied to the first network device 310 and the second network device 410, the test procedure can be performed under any circumstances. In addition, since the test is performed on the Internet, the test can be performed at a high speed.

The device protocol analysis module 308 analyzes the DLNA related data transmitted and received through the first network device 310 and the second network device 410 to determine whether the test target device 320 or the interlocking target device 421 is DLNA- You can determine whether you are in compliance with the agreement. The test apparatus 300 can sequentially store a series of DLNA-related data conforming to the DLNA-related protocol in the storage unit 302. [

The device protocol analysis module 308 compares the stored DLNA related data with the DLNA related data generated from the test target device 320 to determine whether or not the DLNA related data generated from the test target device 320 conforms to the DLNA protocol can do. The device protocol analysis module 308 can acquire DLNA related data generated from the test target device 320 by capturing DLNA related data transmitted and received through the first network device 310 and the second network device 410 . The device protocol analysis module 308 compares the content and format of the DLNA-related data to determine whether the DLNA-related data conforms to the DLNA protocol.

As a result of the comparison, if the DLNA-related data match, the DLNA-related data generated in the device under test 320 can be determined to comply with the DLNA-related protocol. The determination result can be displayed on the display unit 303. [ Accordingly, the user can finish the test on the device under test 320 and recognize the test result.

As a result of the comparison, if the DLNA-related data do not match, it can be determined that the DLNA-related data generated in the device under test 120 does not comply with the DLNA-related protocol. In this case, the test determination result can be displayed through the display unit 303. [ More specifically, if a test result error occurs, the cause of the error can be indicated to be in the device under test 320. In addition, a portion where an error has occurred can be displayed among the DLNA-related data generated in the device under test 120. [ In addition, it may request modification of the part where the error occurred.

The device protocol analysis module 308 compares the stored DLNA related data with the DLNA related data generated from the interworking target device 421 to determine whether the DLNA related data generated from the interworking target device 421 complies with the DLNA protocol Can be determined. The device protocol analysis module 308 can acquire DLNA related data generated from the interworking target device 421 by capturing DLNA related data transmitted and received through the first network device 310 and the second network device 410 . The device protocol analysis module 308 compares the content and format of the DLNA-related data to determine whether the DLNA-related data conforms to the DLNA protocol.

The device protocol analysis module 308 compares DLNA related data held by the test server 300 and the test server 400 to determine whether an error has occurred in DLNA-related data transmission / reception. More specifically, if the DLNA-related data held by the test apparatus 300 and the test server 400 are different from each other, it can be determined that an error has occurred in DLNA-related data transmission / reception through the Internet. In this case, the test apparatus 300 and the test server 400 can perform the test again.

The server protocol analysis module 404 of the test server 400 also analyzes the DLNA related data transmitted and received through the first network device 310 and the second network device 410 and transmits the DLNA related data to the test target device 320 or the interworking target device It is possible to judge whether or not the DLA 421 complies with the DLNA-related protocol. The test server 400 may sequentially store a series of DLNA-related data conforming to the DLNA-related protocol in the storage unit 402. [

The server protocol analysis module 404 can accurately analyze the cause of the error of the DLNA-related data generated from the interworking target device 421. [

As described above, according to the interoperability testing system 20 between the DLNA apparatuses according to the second embodiment, it is possible to accurately analyze the cause of failure of the DLNA apparatus test execution. In addition, since the cause of the failure is analyzed through the device protocol analysis module 308, the cause of the failure can be analyzed within a short time.

[How to test interoperability between DLNA devices]

5 is a flow diagram illustrating a method of interoperability testing among DLNA devices in accordance with an embodiment. The interoperability test method between DLNA devices according to an embodiment can be performed in the interoperability test system between DLNA devices shown in Figs.

In operation 500, an XML file for generating a web browser for interoperability testing between DLNA devices may be input to the test server. More specifically, an XML file for creation of a web browser for interoperability testing between DLNA devices may be input to the test server. The structure of the specific XML file will be described later.

In operation 510, the test server may generate a web browser according to the input XML file. More specifically, the test server can create a web browser for interoperability testing (hereinafter referred to as "test") among DLNA devices. Here, the web browser may include at least one web page in which the test procedure is described.

In operation 520, the test apparatus can execute the generated web browser. More specifically, the test apparatus can receive the web browser generated from the test server, execute it, and display it on the display unit.

In operation 530, the test may be performed according to the executed web browser. The user can perform the test according to the test procedure displayed on the web browser. Therefore, the user can perform the test without being limited by the distance even if the device under test and the device to be interlocked physically exist at a great distance. In addition, the test procedure can be performed through a web browser under any circumstance if the environment is capable of accessing the Internet. In addition, since the test can be performed using the Internet, the test can be performed at a high speed.

1. Structure of the XML file

6 and 7 are diagrams showing the structure of an XML file used in the interoperability test method between DLNA devices according to the embodiment.

The XML file according to the embodiment may include a test case (TestCase) and a test suite (TestSuite). A test case is a small unit in which a test is performed, and a test suite is a set of a plurality of tests. More specifically, the test case refers to one procedure performed in the interoperability test method between DLNA devices according to the embodiment, and the test suite can be regarded as a set of these procedures.

6 is a diagram illustrating a structure of an XML file test suite 600 used in the interoperability testing method between DLNA devices according to the embodiment.

The test suite 600 may include <TestSuite> 610, <Parameters> 620, <Purpose> 630, and <Testcases> 640. More specifically, the test suite 600 includes a <TestSuite> 610, a <Parameters> 620, a <Parameter> 625, a Purpose 630, a <Testcases> 640, and a <Testcase> 645 ).

&Lt; TestSuite > 610 may be a part declaring that it is a specification for test suite 600. &Lt; TestSuite > 610 may include Id, Name, Vession, and UpdateDate. The identifier is described in Id, the name of test suite 600 is described in Name, the version of test suite 600 is described in Version, and the update date can be described in updateDate.

&Lt; Parameters > 620 may be a part indicating the test suite 600 parameter group (group). &Lt; Parameters > 620 may be composed of a plurality of < Parameter > The < Parameter > (625) may describe a specification of factors applicable to the entire test suite (600) when the test is performed automatically. More specifically, a Name indicating a parameter name, a Type indicating a parameter type, a Signature indicating a parameter name for output, and a Description indicating a description may be described.

&Lt; Purpose > 630 may be a part describing the purpose of the test suite 600.

&Lt; Testcases > (640) may be a part representing a test case bundle (group). <Testcases> 640 may be composed of a plurality of <Testcase> 645. &Lt; Testcase > (645) may be described for the included test cases. More specifically, it is possible to list numeral Id representing the identifier, Name representing the name of the test case, filename indicating the name of the test case implementation file, and numOfDevice indicating the number of devices required for executing the test case.

FIG. 7 is a diagram illustrating the structure of a test case 700 of an XML file used in the interoperability test method between DLNA devices according to the embodiment.

The test case 700 includes a <Testcase> 710, <Parameters> 720, <Purpose> 730, <InitialCondition> 740, <Devices> 750 and <Procedure> 760 . More specifically, the test case 700 includes a test case 710, a parameter 720, a parameter 725, a Purpose 730, an InitialCondition 740, and a device 750 765, 766, 767, 768, and 769, respectively, in the <Device> field 755, the <Procedure> field 760, the <Step> field 765, the <MessageVerdict> field 766, . &Lt; / RTI >

The < Testcase > (710) may be a part that declares the specification of the test case. The Testcase may contain an Id indicating the test case identifier.

&Lt; Parameters > 720 may be a part indicating a test case parameter group (group). &Lt; Parameters > 720 may be composed of a plurality of < Parameter > &Lt; Parameter > (725) may describe a specification of factors applicable to the entire test case when the test is performed automatically. More specifically, a Name indicating a parameter name, a Type indicating a parameter type, a Signature indicating a parameter name for output, and a Description indicating a description may be described.

&Lt; Purpose > (730) may be a part describing the purpose of the test case.

&Lt; InitialCondition > 740 may be a part describing an initial condition for performing a test case.

&Lt; Devices > 750 may be a part for describing a device bundle (group). The < Devices > 750 may include a plurality of < Device > &Lt; Device > (755) may describe the device information required when performing the test case. More specifically, a Id indicating a device identifier, a Type indicating a device type, a Name indicating a device name, and a Role indicating a role in DLNA may be described.

&Lt; Procedure > (760) may be a portion describing a test procedure bundle (group).

<Step> 765 may be a part describing the test procedure, and a Description indicating the test procedure (instruction) may be described.

&Lt; MessageVerdict > 766 may describe a specification for determining whether or not the DLNA-related message is transmitted and received and whether the data of the field conforms to the protocol. More specifically, a name indicating a message name, a From indicating a name of a transmitting device, a To indicating a name of a receiving device, and an IsMandatory indicating whether or not it should be indispensably included in judging a test case result may be described.

The < Field > field 767 may describe an item for which the value of the field data should be confirmed. More specifically, a Name indicating a field name and a Value indicating a condition (range) of a value may be described.

The < UserConfirmVerdict > 768 may be provided with a specification for determining the result according to the yes / no response of the user. More specifically, a Name indicating a message to be displayed when requesting a yes / no response to the user, and an IsMandatory indicating whether or not it should be indispensably included in the determination of the test case result may be described.

The < User InputVerdict > 769 may be provided with a specification for determining the result according to a user's input of a value. More specifically, a name indicating a message to be displayed when a user requests input, an IsPositive indicating whether a positive response is successful, and an IsMandatory indicating whether or not the response should be indispensably included in the determination of a test case result.

The interoperability test method between the DLNA devices can be performed by implementing a web browser using the XML file including the test suite 600 and the test case 700 according to the formats shown in FIGS.

2. Example of an XML file

FIG. 8 is a diagram illustrating an embodiment in which the structure of the test suite 600 of an XML file used in the interoperability testing method between DLNA devices according to the embodiment is applied. FIG. The test case 700 of the XML file used in the interoperability test method is applied.

In the interoperability test method between DLNA devices according to the embodiment, an XML file including the test suite 600 shown in FIG. 8 and the test case 700 shown in FIG. 9 may be used.

10, 20: Interoperability testing system between DLNA devices
100, 300: Test apparatus
106, 306: Client module
107, 308: Device status simulation module
108: Device Protocol Analysis Module
110, 310: a first network device
120, 320: Device under test
200, 400: test server
202, 402: Server module
203: Server state simulation module
204, 404: Server Protocol Analysis Module
210, 410: a second network device
220, 420: Interlocking target device set
600: Test Suite
700: Test case

Claims (9)

Inputting an XML file for creating a web browser for interoperability testing between a device under test and an interworking target device capable of sharing a DLNA function with the device under test;
Creating a web browser at the server, the web browser including at least one web page describing procedures for performing interoperability testing among DLNA devices according to the XML file;
Receiving, by the apparatus for performing the interoperability test, the generated web browser and executing the received web browser to display a procedure for performing the interoperability test; And
Receiving information necessary for the progress of the displayed procedure and performing the interoperability test between the test target device and the interworking target device according to the input information. The method of claim 1, wherein the XML file
A test suite representing one procedure performed in the interoperability test method and a test suite representative of the set of procedures. 3. The system of claim 2, wherein the test suite
Between DLNA devices including <TestSuite> declaring that it is a specification for a test suite, <Parameters> representing a suite of test suite parameters, <Purpose> describing the purpose of the test suite, and <Testcases> representing a bundle of test cases Interoperability test method. The method of claim 3,
The < Parameters > includes at least one < Parameter > in which specifications for factors applicable to the entire test suite are described when the test is performed automatically,
Wherein the < Parameter > is a test method for interoperability between DLNA devices including a Name indicating a parameter name, a Type indicating a parameter type, a Signature indicating a parameter name for output, and a Description indicating a description. The method of claim 3,
The < Testcases > includes at least one < Testcase > in which a test case for performing the interoperability test is described,
Wherein the test case includes an Id indicating an identifier, a Name indicating a name of a test case, a filename indicating a name of a test case implementation file, and numOfDevice indicating a number of devices required for performing a test case. 3. The apparatus of claim 2, wherein the test case
A <Testcase> declaring that the test case is a specification, a <Parameters> indicating a test case parameter bundle, a <Purpose> describing the purpose of the test case, an <InitialCondition> A method for testing interoperability between DLNA devices, including <Devices> describing and <Procedure> describing a set of test procedures. The method according to claim 6,
The < Parameters > includes at least one < Parameter > in which a specification of an applicable factor for the entire test case is written when the test is automatically performed,
Wherein the < Parameter > is a test method for interoperability between DLNA devices including a Name indicating a parameter name, a Type indicating a parameter type, a Signature indicating a parameter name for output, and a Description indicating a description. The method according to claim 6,
The < Devices > includes at least one < Device > that describes device information necessary for performing a test case,
Wherein the < Device > is an Id indicating a device identifier, a Type indicating a device type, a Name indicating a device name, and a Role indicating a role in the DLNA. The method according to claim 6,
The < Procedure > includes < Step > describing a test procedure,
<Step> is a <MessageVerdict> in which a specification for the result judgment according to whether or not the DLNA-related message is transmitted and received and a data in the field conforms to the protocol, a field <Field> describing the item to be checked for the value of the field data &Lt; UserInputVerdict >< / RTI > in which a specification for determining a result according to a user's Yes / No response is described, and a specification for a result determination based on a user's input of a value is described.

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