KR100443916B1 - method for testing H.323 gatekeeper using open phones - Google Patents

Abstract

According to an exemplary embodiment of the present invention, a method of testing an H.323 gatekeeper using an open phone includes: generating at least one instance by executing H.323 open phone software on at least one or more computer equipment, and calling each generated instance. And setting up as a receiver to perform registration with the gatekeeper, performing a call and accepting the call according to a test script preset for each sender and receiver registered to the gatekeeper, and calling and accordingly. After a predetermined time elapses after the call acceptance is performed, a long run test is performed on the gatekeeper's software by repeatedly performing the deregistration from the gatekeeper, so that the reliability of the gatekeeper can be simulated and tested for reliability. Can be.

Description

Method for testing H.323 gatekeeper using open phones}

The present invention relates to a test method of an H.323 gatekeeper using an open phone.

In general, the gatekeeper is an H.323 entry, a multimedia protocol defined by the International Telecommunications Union-Telecommunication Standardization Sector (ITU-T), and is an H.323 end that exists in a packet-based network. End units, for example, a gateway, a terminal, and a main control unit (MCU) are grouped into one control area, and refer to a unit that performs their control, management, and integration functions.

In general, such a gatekeeper refers to ID names or predefined prefixes of endpoints such as terminals and gateways registered with the gatekeeper.

In particular, in case of performing a call access to a gateway registered to the destination, a plurality of gateways registered to the group are grouped by prefix, and then the corresponding group is extracted by referring to the prefix, and each gateway in the extracted group is sequentially It searches for gateways to find gateways that can use the channel and connects the call.

In order to test the reliability of the H.323 gatekeeper S / W (Soft Ware), it is necessary to perform the test for a long time under the environment similar to the actual use environment. However, in order to simulate a real-world environment, it is troublesome to prepare from tens to hundreds of terminals (IP-Phone, etc.) and use it to repeatedly make, hang up, and hang up. If you do not suffer from such a hassle, there is a problem to prepare and test expensive call generator (Call Generator) equipment.

The present invention has been made to solve this problem, and solved the above problems by using an open phone, which is an H.323 terminal S / W, and an MS-Visual Test, which is an S / W automated test tool. The purpose of the present invention is to provide a test method of an H.323 gatekeeper using an open phone which performs a longrun test to verify the reliability of the H.323 gatekeeper.

1 is a flowchart illustrating a scenario corresponding to a caller in a test method of an H.323 gatekeeper according to the present invention.

2 is a flowchart illustrating a scenario corresponding to a receiver in a test method of an H.323 gatekeeper according to the present invention;

In order to achieve the above object, a test method of an H.323 gatekeeper using an open phone according to the present invention includes the steps of: generating at least one or more instances by executing H.323 open phone software on at least one or more computer equipment; Setting each generated instance as a sender and a receiver to perform registration with the gatekeeper, and sending and receiving a call according to a test script preset for each sender and receiver registered with the gatekeeper, and And performing the deregistration from the gatekeeper after a predetermined time after the call acceptance is performed, thereby performing a long run test on the software of the gatekeeper.

First, let's look at the open phone and the MS-visual test that is the basic concept of the present invention.

Open phone is an H.323 terminal S / W that is open to source code created by Open H.323 Project Group (www.openh323.org). This open phone S / W can run several program instances simultaneously with different listening ports on one PC, so it can simulate dozens of terminals on one PC. Here, the listen port refers to a port for the open phone S / W to receive data in a protocol for communicating with the gatekeeper.

MS-Visual Test is an S / W test automation tool that allows you to record and edit interactions, such as user input, to simulate most user interactions.

Using this visual test S / W, it is as if a person is sitting in front of the PC and running several open phone S / Ws, simultaneously registering with the gatekeeper, making and receiving calls to different terminals at the same time, and ending the call. You can write and run these scenarios indefinitely.

For example, if you run 40 instances of Open Phone S / W on one PC, and set 20 as callers and 20 as callees, you only need 5 PCs. It is possible to carry out an infinite number of repetitive tests in which 200 terminals call and hang up each other.

For reference, Open Phone S / W is small in size, so even if you run dozens of instances on a PC at the same time, it doesn't load the PC heavily.

Based on this basic concept, let us explain in detail the test method according to the present invention.

First, we write a script that represents two kinds of scenarios that correspond to callers and callees with visual test software. This scenario assumes that you are running 40 open phones simultaneously on a PC.

1 is a flowchart illustrating a scenario corresponding to a caller according to the present invention. Referring to FIG. 1, a procedure corresponding to a caller will be described below.

First, 20 open phone S / W instances are created (S1). Then, execute DOS window for each created instance (S2), and enter the command c: \ openphone \ ohpphone --listenport 40xx -u 10xx -g 168.219.80.146 -l in each DOS window to register with the gatekeeper. Request (S3). Note that --listenport is the switch that specifies the listen port for the open phone, and -u is the switch that specifies the alias for the open phone. Here, alias means a phone number assigned to an IP phone in a VoIP network.

Therefore, the first DOS window to the twentieth DOS window by increasing the listening port from 4000 to 4019 and the alias from 1000 to 1019 by 1 to enter. That is, 20 IP phones register their data port information and phone number information with the gatekeeper.

It is determined whether the gatekeeper has been successfully registered (S4). If a message indicating that the gatekeeper has been registered is displayed in each DOS window in which the open phone is running, enter "c 20xx" indicating that the caller is making a call to the other party. Request (S5). For reference, c 20xx is an open phone command that calls a terminal with alias 20xx.

If you enter c 2000 through c 2019 in each DOS window, the terminal with alias 1000 is called 2000, the terminal with 1001 is 2001, and the terminal with 1019 is dialed 2019. It checks the passage of time (S6) to allow the user to enter the "h" command to hang up after a certain time in all DOS windows to hang up all the connected calls (S6).

If the call is disconnected, the "x" command is input to each DOS window so that each terminal is requested to be unregistered with the gatekeeper so that each terminal is deregistered from the gatekeeper (S7). Again, the above-described process (S3-S8) is repeated.

2 is a flowchart illustrating a scenario corresponding to a callee according to the present invention. Referring to Figure 2 describes the procedure corresponding to the receiver as follows.

First, create 20 instances of the open phone S / W (S11). 20 DOS windows are run for each generated instance (S12). Enter the command c: \ openphone \ ohpphone --listenport 50xx -u 20xx -g 168.219.80.146 -l in each DOS window to request registration with the gatekeeper (S13).

Therefore, let's do this by increasing the listening port from 5000 to 5019 and aliasing from 2000 to 2019 from the twenty first DOS window to the forty DOS window. That is, 20 IP phones register their data port information and phone number information with the gatekeeper.

It is determined whether the gatekeeper has been registered (S14), and a message indicating that the gatekeeper has been successfully registered is displayed in each DOS window in which the open phone is running, and it is determined whether or not there is a call called (S15). If a message appears that the "y" command is entered to accept the call (S16).

If it is determined whether or not the other end of the call (S17) after a certain time, the message is displayed that the call is disconnected from the other side, by inputting the "x" command to all terminals are registered from the gatekeeper (S18) . The process (S12-S17) as described above is repeated.

When testing the H.323 gatekeeper according to the present invention, although accurate performance figures cannot be obtained, reliability can be tested by simulating the practical use of the gatekeeper at low cost using a PC.

Claims (3)

In the test method of the H.323 gatekeeper, Creating at least one instance by running H.323 open phone software on at least one computer device, Setting each generated instance as a sender and a receiver to perform registration with a gatekeeper; Performing call origination and corresponding call acceptance according to a test script preset for each sender and receiver registered in the gatekeeper; Test method of an H.323 gatekeeper using an open phone that performs a long run test of the gatekeeper's software by repeatedly performing the deregistration from the gatekeeper after a predetermined time after the call and the call acceptance are performed. . The method of claim 1, wherein in the step of performing the origination and the call acceptance accordingly, The script is an H.323 gatekeeper test method using an open phone which is a test scenario written using a software automated test tool. The test method of claim 2, wherein the software automated test tool is an MS-Visual test.