KR20160146085A - Apparatus, method and program for opc ua specification compliance verification - Google Patents

Abstract

The present invention relates to an OPC UA specification conformance verification apparatus comprising: an output control unit to output a conformance unit and a test case based on graphic user interface (GUI), a test case generating unit to generate and edit the conformance unit and the test case after configuring each parameter for the conformance unit and the test case, conformance test unit and test case which output development screen of conformance unit and test case, a test case conversion unit for converting each of the conformance test unit and the test case into a programming language, and a conformance test unit to input the conformance test unit and the test case converted into a programming language, to a CTT program to verify that the power facilities are provided in conformity with the OPC UA specification.

Description

TECHNICAL FIELD [0001] The present invention relates to an OPC UA conformance verification apparatus, a method thereof, and a program using the OPC UA specification conformance verification apparatus,

The present invention relates to an apparatus and method for verifying compliance with an OPC UA (Object Linking and Embedding for Process Control Unified Architecture) specification using a GUI (Graphic User Interface). More particularly, the present invention relates to an apparatus and method for verifying the conformity of an OPC UA specification of a power facility by creating a test case based on a GUI and converting it into a programming language.

The Object Linking and Embedding for Process Control (OPC) Foundation provides specifications related to data exchange in industrial automation. Currently, OPC DA, OPC A & E (Alarms and Events), and OPC HDA (Historical Data Access) standards are widely used in industry, and in particular, the above-mentioned specifications are widely adopted in system-based industrial automation.

Recently, OPC Foundation announced OPC UA (Unified Architecture), a new OPC specification. The purpose of this specification is to provide data in a platform independent manner. The OPC UA integrates the existing OPC DA, A & E, and HDA standards into a single address space. Based on the OPC UA's address space model, companies developing products can express rich and scalable information models using object-oriented technologies. OPC UA can be applied to intelligent devices, control devices, SCADA systems, and ERP systems, and has a very wide range of applications, from industrial sites to top-level systems.

Furthermore, there are a lot of products on the market where information models based on OPC UA are applied to various products. In addition, the OPC UA specification was introduced in the field of system automation in the electric field and was selected as the core engine of the smart grid. The International Electrotechnical Commission (IEC) adopted OPC UA as the international standard for IEC 62541.

Therefore, the number of products to be certified and managed by the OPC Foundation is increasing. In order to successfully manage such an active market, there is a need for a verification mechanism that allows all OPC products to interoperate with each other and maintain a certain level of quality or more do. The OPC Foundation has developed the Compliance Test Tool (CTT), which is a verification program for the OPC standard, in order to meet these needs.

The CTT program is a program that defines an implementation procedure that verifies that the product to which the OPC specification is applied conforms to the quality guidelines. The quality guidelines include: 1) Compliance Testing to test compliance with the OPC standard, 2) Interoperability Testing to test interoperability among other products, and 3) Robustness Testing; Efficiency Testing to test performance such as CPU, RAM and Bandwidth; and Finally, Usability Testing for user convenience testing. If the products pass all of these test procedures, the OPC authority assigns the certificates to the products and manages the certification for three years.

At this time, the CTT program is provided with a fixed test case presented by the OPC Foundation. However, if the user wishes to generate an arbitrary test case without using a fixed test case, the user must generate a script directly using the JAVA language.

That is, the user has to have expert knowledge of the programming language and the CTT program in order to create a random test case. Therefore, there is a need for a method to intuitively create a test case based on GUI (Graphic User Interface).

Korean Patent Publication No. 2014-0037342 (Mar.

An object of the present invention is to solve the above problems. In order to verify the conformity of the OPC UA standard, a CTT program is used. When a tester attempts to perform a new test case Even if the examiner does not have expertise in the JAVA language, he can easily create a new test case based on the GUI (Graphic User Interface), so even if he / she does not have expert knowledge of the JAVA language, So that conformance tests can be performed.

In order to achieve the above object, an OPC UA conformance testing apparatus according to an exemplary embodiment of the present invention outputs a conformance unit and a test case development screen based on a GUI (Graphic User Interface) A test case generation unit that sets parameters of the output control unit, the conformance test unit, and the test case, and then generates and edits the conformance test unit and the test case, a test that converts each conformity test unit and the test case into a programming language And a conformance testing unit for inputting the conformance test unit and the test case converted into the case conversion unit and the programming language into the CTT program and verifying whether the power facilities are implemented in conformity with the OPC UA specification.

At this time, the test case is included in the conformance test unit, the test case includes at least one service block, and the individual operations dividing the entire operation of the test case are set in each of the service blocks .

Meanwhile, the test case generation unit arranges the service blocks at predetermined positions, and sequentially connects the arranged service blocks according to the order of the entire operation of the test cases.

In addition, the test case generation unit may connect the service blocks located at the start and end of the specific operation region in a loop form when the specific operation region is repeated a predetermined number of times during the entire operation of the test case.

The test case generation unit sets a self loop in a service block that performs an individual operation when a specific individual operation among the entire operations of the test case is repeated a predetermined number of times.

Furthermore, the test case generation unit is configured to set a waiting time block between two connected service blocks when waiting time is required between two separate operations.

Here, the individual operations may include at least one of Open Secure Channel, Create Session, Activate Session, Read, Close Session, and Close Secure Channel And one of them.

On the other hand, the test case conversion unit converts the conformance test unit and the test case into a JavaScript (JavaScript) having an extension of xml.

In order to achieve the above object, an OPC UA conformance conformance verification method according to an exemplary embodiment of the present invention includes displaying a Conformance Unit and a test case development screen based on a GUI (Graphic User Interface) Setting the parameters of the conformance test unit and the test case, and then creating and editing the conformance test unit and the test case, converting each of the conformance test unit and the test case into a programming language, And inputting the converted conformance testing unit and the test case into the CTT program to verify that the power facilities are implemented in conformity with the OPC UA specification.

At this time, the test case is included in the conformance test unit, and the test case includes at least one service block, and the individual operations dividing the entire operation of the test case are respectively set in each service block do.

The service blocks are arranged at preset positions in the generating and editing step, and the arranged service blocks are sequentially connected according to the order of the entire operation of the test case.

Also, in the generating and editing step, when the specific operation points are repeated a predetermined number of times in the entire operation of the test case, the service blocks respectively located at the start and end between the specific operation points are connected in a loop form.

Further, in a step of generating and editing, when a specific individual operation among the entire operations of the test case is repeated a predetermined number of times, a self loop is set in a service block that performs the individual operation.

And a wait time block is set between two connected service blocks when a waiting time is required between two separate operations in the step of creating and editing.

At this time, the individual operation may be at least one of Open Secure Channel, Create Session, Activate Session, Read, Close Session, and Close Secure Channel And one of them.

And converting the conformance test unit and the test case into a JavaScript (JavaScript) having an extension of xml in the conversion step.

In order to achieve the above object, an OPC UA conformance verification program according to an exemplary embodiment of the present invention is stored in the OPC UA conformance verification method recording medium.

According to the present invention, in verifying whether the OPC UA specification-based power facilities newly introduced in the SCADA system, which is one of the power systems, conforms to the OPC UA standard, the test person can input a new test scenario into the GUI Graphic User Interface), so that it is possible to easily obtain test scenarios necessary for the tester in the power field.

1 is a diagram for explaining a connection relationship between a CTT program and an EUT.
2 is a diagram for explaining a correlation between a profile, a conformance test unit (Conformance Unit), and a test case (Test Case).
3 is a diagram for explaining a relation between an OPC UA conformance conformance verification apparatus and a CTT program according to an embodiment of the present invention.
4 is a block diagram for explaining an OPC UA compliance verification apparatus according to an embodiment of the present invention.
5 is a flow chart for explaining an OPC UA conformance verification method according to an embodiment of the present invention.
6 is a diagram for explaining a GUI (Graphic User Interface) of the output control unit according to the embodiment of the present invention.
7 and 8 are views for explaining a service block according to an embodiment of the present invention.
9 is a diagram for explaining OPC UA server connection information setting according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. . In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and method for verifying conformance to an OPC UA specification for a SCADA system-based power equipment according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram for explaining a connection relationship between a CTT program and an EUT. 2 is a diagram for explaining a correlation between a profile, a conformance test unit (Conformance Unit), and a test case (Test Case). 3 is a diagram for explaining a relation between an OPC UA conformance conformance verification apparatus and a CTT program according to an embodiment of the present invention. 4 is a block diagram for explaining an OPC UA compliance verification apparatus according to an embodiment of the present invention. 5 is a flow chart for explaining an OPC UA conformance verification method according to an embodiment of the present invention. 6 is a diagram for explaining a GUI (Graphic User Interface) of the output control unit according to the embodiment of the present invention. 7 and 8 are views for explaining a service block according to an embodiment of the present invention. 9 is a diagram for explaining OPC UA server connection information setting according to an embodiment of the present invention.

As shown in FIG. 1, the Compliance Test Tool (CTT) program, which is a test apparatus for determining conformity of a product to which an OPC UA (Object Linking and Embedding for Process Control Unified Architecture) standard is applied, is divided into a server and a client And the server and client test environments are different.

At this time, the manufacturer of the electric power facility must issue the OPC or OPC UA conformance test and obtain the certificate before developing the relevant product and supplying it to the market. However, in general, most of the products that use the OPC UA specification do not implement all the specifications of the OPC UA. For example, in the case of a server operating in an embedded device, it may not provide historical data and may not provide a subscription function. Also, certain servers may detect changes in their address space, but not others. Therefore, in the OPC UA specification, the authentication range of the product is determined by defining different functions for each product as profiles for the respective products.

As shown in FIG. 2, the OPC UA CTT program supports a plurality of profiles. These profiles include a profile associated with the server, a profile associated with the client, a profile associated with security, and a profile associated with the transfer. Furthermore, a particular profile B may include another profile C.

Further, the profile includes at least one conformance unit. At this time, the conformance unit may belong to a plurality of profiles at the same time, and each conformance unit may include at least one test case. At this time, the conformance test unit is a separate unit that can be tested.

At this time, the specification related to the profile and the conformance unit is defined in [OPC UA part 7], and the specification related to the test case is defined in [OPCTL part 8] and [OPCTL part 9] have.

In general, profiles, conformance testing units and test cases are fixedly presented within the CTT program. At this time, if the tester wants to execute a new test case that is not previously presented, a new test case can be created using the JAVA language.

As shown in FIG. 3, in order to verify whether the 4th generation SCADA system based on the OPC UA is implemented in conformity with the OPC UA standard, the developer of the test case uses the GUI-based program to test the OPC UA conformance test scenario Create a case (Test Case) and execute it. At this time, the execution result is transformed into a form having an extension xml based on JavaScript, which is an output file of a form executable in the CTT program, and is provided to the CTT program. On the other hand, if the conformance tester inputs this output file into the CTT program and executes it, the test case (Test Case) generated by the developer of the test case is executed according to the conformance test procedure of the CTT program, OPC conforms to the UA specification and provides the result as an output file in the CTT program.

More specifically, the developer of the test case generates a test case based on the GUI using the OPC UA conformity conformance verification apparatus 100. [ Thereafter, the OPC UA conformity conformance verification apparatus 100 transmits the generated test case to the CTT program execution apparatus 10. [ At this time, the conformance tester performs the test case, and the CTT program execution device 10 outputs the test result and log and transmits it to the OPC UA conformity conformance verification apparatus 100 again. Thereafter, the OPC UA conformance verifier 100 analyzes and reports the received result and log.

4, the OPC UA conformance testing apparatus includes a test case generating unit 110, a test case converting unit 120, a conformance testing unit 130, and an output control unit 140.

The test case generation unit 110 receives a parameter of a corresponding test case from a test case developer based on a GUI (Graphic User Interface), generates or edits a test case, and executes a conformance test Create or edit units (Conformance Units).

The test case conversion unit 120 converts the test cases and conformance units generated based on the GUI in the test case generation unit 110 into a programming language that can be understood by the computer. In this case, the format to be converted may be JavaScript, and the file extension may be xml. In addition, the test case and the conformance unit can be converted into a programming language understood by a computer .

The conformance testing unit 130 verifies whether or not the power facilities using the OPC UA based fourth generation SCADA system are implemented in conformity with the OPC UA specification by using the converted test case and the conformance test unit in conjunction with the CTT program. At this time, the CTT program may be included in another device that is embedded in the conformance testing unit 130 or electrically connected to the conformance testing unit 130, or may be included in the converted test case from the conformance testing unit 130 Can be received.

If the CTT program is not embedded in the conformance testing unit 130, the conformance testing unit 130 does not perform the direct conformance test but sends the converted test case to the CTT program and receives the conformance test result Can play a role.

The output control unit 140 may provide a test case developer with a conformance test unit (conformance unit) and a test case development screen based on the GUI together with the operation of other configurations of the OPC UA conformity conformance testing apparatus. In addition, the output control unit 140 can provide the conformance tester with the result report provided by the CTT program in connection with the conformity determination result of the conformity testing unit 130, and further, by using the result report provided by the CTT program, A detailed conformance report showing detailed results may be provided to the conformance tester.

As shown in FIG. 5, the OPC UA specification conformance verification method includes a step of outputting a conformance unit and a test case development screen based on a GUI (S100), generating and editing a conformance test unit and a test case (S300) of converting each of the conformance test units and test cases into a programming language (S300), and verifying whether the power facilities are implemented in conformity with the OPC UA specification by executing the OPC UA conformance test using the CTT program Step S400.

In the conformance testing unit (S100) of outputting the conformance unit and the test case development screen, the test case developer generates a test case in the test case generation unit 110 through the GUI-based screen output through the output control unit 140 Command.

In the step S200 of generating and editing the conformance testing unit and the test case, the test case generating unit 110 may generate a conformance unit and a test case from the test case developer. Further, the conformance unit and the test case may include a service block. At this time, the test case generation unit 110 may receive the conformance units and parameters for the test cases to be generated by the test case developer.

In the step S300 of converting each of the conformance test unit and the test case into a programming language, the test case converting unit 120 converts the conformance test unit (conformance unit) generated based on the GUI in the test case generating unit 110, Into a programming language understood by the computer. In this case, the format to be converted may be JavaScript, and the file extension may be xml. However, the conformance unit and the test case can be converted into a computer-readable programming language .

In the step S400 of verifying whether or not the power facilities are implemented in conformity with the OPC UA specification by executing the OPC UA conformance test using the CTT program, the conformance testing unit 130 transmits the converted conformity test unit and the test case to the CTT program And verify that the power facilities using the OPC UA based fourth generation SCADA system are implemented according to the OPC UA specification.

After completing the OPC UA conformance test using the CTT program to verify whether the power facilities are implemented in conformity with the OPC UA standard (S400), the output control unit 140 determines whether conformity of the conformity testing unit 130 Regarding the determination result, the result report provided by the CTT program can be provided to the conformance tester, and furthermore, the result report provided by the CTT program can be utilized to provide the conformance tester with a detailed conformity result report showing more detailed results .

6, in the apparatus and method for verifying conformance to an OPC UA specification according to an exemplary embodiment of the present invention, a plurality of tabs may be output on a GUI (Graphic User Interface) -based screen output through the output control unit 140 have.

More specifically, in order to generate and edit a conformance test unit and a test case (S200), the test case developer creates a project and selects a 'Compliance menu' on a GUI-based screen output through the output control unit 140 Afterwards, you can add or delete conformance units to the tree by selecting the 'TestCase tab'.

Furthermore, the test case developer can select and open the already created project file, load the compliance test case included in the selected project file, and use the 'Compliance menu' Unit tree and construct a test case tree included in the Conformance Unit. At this time, the developer of the test case can inquire the details of the corresponding test case through the test case included in the test case tree.

The test case developer can then create a new test case under the Conformance Unit tree for the conformance unit. At this time, the first test case created may be assigned any name, and the test case developer can change the name of the generated test case or delete the test case from the tree. Lt; / RTI >

Furthermore, the developer of the test case can look up the sub-test case included in the conformance unit (GUI) in the area of the document (Document).

Meanwhile, in order to convert the conformance test unit and the test case into the programming language (S300) according to the UaConformaceGroupExport schema specification for CTT, the test case developer selects 'Export Conformance Unit Menu' for the conformance unit (conformance unit) Can be entered in the form of an extension xml. At this time, the test case conversion unit 120 examines a test case belonging to a conformance unit (conversion unit) to be converted, examines the service block included in the test case, and converts it into a programming language.

At this time, the test case conversion unit 120 may check a service block included in the test case, generate a JavaScript code, encode it, and store it in an xml format.

On the other hand, the test case conversion unit 120 may store the individual test cases in the xml format according to the UaScriptExport schema specification defined in the CTT. The test case developer can select the Export Conformance Unit menu for each test case and enter the filename to save. At this time, the test case converting unit 120 may check the service blocks included in the test cases and convert them into programming languages.

That is, the test case conversion unit 120 may convert the whole conformance unit including the test case into a programming language or convert only the test case into a programming language (S300).

On the other hand, in step S200 of generating and editing the conformance test unit and the test case, the test case developer selects 'Discovery Service tab' in the 'Service Blocks' tab of the test case configuration screen of the GUI, 'Or' GetEndpoints'. At this time, when the test case developer selects a service, the selected service can be identified in the Document area. At this time, a service block can be generated and output in the Document area. At this time, the test case developer can change the parameters for each service by selecting a service block and selecting a 'Properties tab' for the corresponding service block.

At this time, at least one service block may be included in the test case, and each of the service blocks may be set up with individual operations dividing the entire operation performed by the test case.

At this time, the individual operations set in the service block include Open Secure Channel, Create Session, Activate Session, Read, Close Session, Close Secure Channel).

7, in the step S200 of generating and editing a conformance test unit and a test case, a plurality of services may be included in the test case, and each of the services may be displayed on a GUI screen output from the output control unit 140 As shown in FIG. At this time, a service indicated by a block may be referred to as a service block. In other words, individual operations in which the entire operation of the test case is divided can be set in the service block.

The test case generation unit 110 receives the setting of the corresponding parameter corresponding to the service block selection of the test case developer, and can store or load the service specific configuration details.

At this time, in the step of generating and editing the conformance test unit and the test case (S200), the test case generation unit 110 arranges the service blocks at predetermined positions according to the input of the test case developer, And can be sequentially connected according to the order of the entire operation of the case.

In addition, the test case generation unit 110 may connect the service blocks located at the start and end of the specific operation area in a loop form when the specific operation area is repeated a predetermined number of times during the entire operation of the test case, If a specific individual operation is repeated a predetermined number of times during the entire operation, a self loop may be set in a service block that performs the individual operation.

The service blocks arranged here can be connected by arrows, and the call order can be set according to these arrows.

That is, the arrow may be a straight line or a loop. If the arrow is in the form of a loop, a plurality of service blocks between two service blocks connected by a loop-shaped arrow can be repeatedly called. If the arrow is a self loop type, It can be called repeatedly. In this case, the number of times that a plurality of services or one service is repeatedly called can be set in advance.

At this time, the test case developer can select the test case and select 'Open Test Case tab' to inquire the test case setting details in the configuration view (Document View).

8, in the step S200 of generating and editing the conformance test unit and the test case, if the waiting time is required between the two separate operations, the test case generating unit 110 generates a test case between two connected service blocks A waiting time block may be added to the arrow connecting the service blocks included in the test case. At this time, the waiting time may be in units of seconds.

For example, in FIG. 8, the 'Read1' service block includes an arrow of a self-loop shape, and the waiting time of the waiting time block is set to 10 seconds.

At this time, the developer of the test case can select the 'Open Test Case tab' to inquire the test case setting details in the configuration view (Document View). You can then select the service block from the Service Block tab and set the wait time in connection with the wait time block in the Document View.

9, in the step S200 of generating and editing the conformance test unit and the test case, the test case developer obtains the connection information with the OPC UA server through the screen output by the output control unit 140 based on the GUI Can be set.

In this case, parameters common to the service block (Service Block) can be input in the 'Common Configuration Window', and the parameters set in the 'Common Configuration Window' can be set to default values when setting the parameters of the service block.

On the other hand, in the GUI-based screen output through the output control unit 140 after the step S400 of verifying whether the power facilities are implemented according to the OPC UA standard, the conformance testing unit 130 uses the CTT program to test the test case The result file generated after execution can be output.

At this time, the conformance tester can select the 'Test Result tab' to load the test result file in the CTT program. At this time, the test result file can be added to the table of 'Test Result tab'.

Further, the GUI-based screen output through the output control unit 140 after the step S400 of verifying whether the power facilities are implemented in conformity with the OPC UA standard is displayed on the conformity testing unit 130 using the CTT program, (Conformance Unit) can be synthesized and output based on GUI.

At this time, the conformance tester can select the 'Test Result tab' to load the test result file in the CTT program, and the test result file can be added to the table of 'Test Result tab'. Furthermore, if a test result is selected from the table in the 'Test Result tab', a success or failure result report can be generated by analyzing the xml result file in the configuration view (Document View), and a comprehensive result for all the servers in the test result A screen for inquiring can be provided.

The above-described OPC UA conformance verification method can be stored in a recording medium and used as an OPC UA conformance verification program.

In this case, the recording medium may include any recording medium including a CD-ROM, a DVD, a Blu-ray, a hard disk, an SSD, and a USB and available to a general technician for storing a program, May be a program implemented through a programming language that can be easily used by a general technician including C ++, JAVA, Visual Basic, C language, and html.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

10: CTT program execution device 100: OPC UA conformity verification device
110: Test case generation unit 120: Test case conversion unit
130: conformity testing section 140: output control section

Claims (17)

An output control unit for outputting a conformance unit and a test case development screen based on a GUI (Graphic User Interface);
A test case generation unit for setting parameters of each of the conformance test unit and the test case and then generating and editing the conformance test unit and the test case;
A test case conversion unit for converting the conformance test unit and each of the test cases into a programming language; And
And a conformance testing unit for inputting the conformance test unit converted into a programming language and the test case into a CTT program to verify whether the power facilities are implemented in conformity with the OPC UA specification.
OPC UA conformance verification device.
The method according to claim 1,
The test case is included in the conformance test unit, the test case includes at least one service block,
Wherein each of the service blocks is configured to have individual operations dividing the entire operation of the test case.
The method of claim 2,
The test-
Arranging the service blocks at predetermined locations, and sequentially connecting the arranged service blocks according to the order of the entire operation of the test case.
The method of claim 3,
The test-
And connecting service blocks located at the start and end of the specific operation port in a loop form when a specific operation port is repeated a predetermined number of times in the entire operation of the test case.
The method of claim 3,
The test-
And a self-loop is set in a service block that performs the individual operation when a specific individual operation is repeated a predetermined number of times during the entire operation of the test case.
The method of claim 3,
The test-
Wherein a wait time block is set between two connected service blocks when waiting time is required between two separate operations.
The method of claim 2,
The individual operation may include:
A secure channel, an open secure channel, a create session, an activate session, a read session, a close session, and a close secure channel. OPC UA conformance verification device characterized by.
The method according to claim 1,
The test case converter may include:
Wherein the conformance test unit and the test case are converted into JavaScript having an extension of xml (JavaScript).
Outputting a conformance unit and a test case development screen based on a GUI (Graphic User Interface);
Generating and editing the conformance test unit and the test case after setting parameters of the conformance test unit and the test case, respectively;
Converting each of the conformance test unit and the test case into a programming language; And
Inputting the conformance test unit converted into a programming language and the test case into a CTT program to verify whether the power facilities are implemented in conformity with the OPC UA specification.
OPC UA conformance verification method.
The method of claim 9,
The test case is included in the conformance test unit, the test case includes at least one service block,
Wherein each of the service blocks is provided with individual operations divided into the entire operation of the test case.
The method of claim 10,
In the creating and editing step,
Wherein each of the service blocks is arranged at a predetermined location, and the arranged service blocks are sequentially connected according to the order of the entire operation of the test case.
The method of claim 11,
In the creating and editing step,
Wherein the service blocks located at the start and end of the specific operation port are connected in a loop form when the specific operation port is repeated a predetermined number of times during the entire operation of the test case.
The method of claim 11,
In the creating and editing step,
Wherein a self-loop is set in a service block that performs the individual operation when a specific individual operation is repeated a predetermined number of times during the entire operation of the test case.
The method of claim 11,
In the creating and editing step,
Wherein a waiting time block is set between two connected service blocks when waiting time is required between two separate operations.
The method of claim 10,
The individual operation may include:
A secure channel, an open secure channel, a create session, an activate session, a read session, a close session, and a close secure channel. OPC UA conformance verification method characterized by.
The method of claim 9,
In the converting step,
And converting the conformance test unit and the test case into JavaScript having an extension of xml (JavaScript).
An OPC UA conformance verification program storing the OPC UA conformance verification method of claims 9 to 16 on a recording medium.

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