Difference between revisions of "Building OpenSTA scripts with GXtest"
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It is advisable for a performance project that OpenSTA measurements are complemented with GX monitoring tools, such as [http://wiki.gxtechnical.com/commwiki/servlet/hwiki?Application+Monitoring+and+Management%3A+using+a+JMX+or+WMI+monitor, JMX]. | It is advisable for a performance project that OpenSTA measurements are complemented with GX monitoring tools, such as [http://wiki.gxtechnical.com/commwiki/servlet/hwiki?Application+Monitoring+and+Management%3A+using+a+JMX+or+WMI+monitor, JMX]. | ||
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== Generating OpenSTA scripts with GXtest == | == Generating OpenSTA scripts with GXtest == | ||
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As it was mentioned in the introduction, GXtest presents an alternative that allows us to overcome this difficulty. | As it was mentioned in the introduction, GXtest presents an alternative that allows us to overcome this difficulty. | ||
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== Summary == | == Summary == | ||
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GXtest allows to create scripts to use in performance tests with the OpenSTA tool. When generating the scripts from GXtest, the tester saves loads of time from doing repetitive tasks, and it gives him the possibility to focus on other activities to reduce the amount of performance errors and therefore obtain a better quality product. | GXtest allows to create scripts to use in performance tests with the OpenSTA tool. When generating the scripts from GXtest, the tester saves loads of time from doing repetitive tasks, and it gives him the possibility to focus on other activities to reduce the amount of performance errors and therefore obtain a better quality product. |
Latest revision as of 20:16, 14 May 2014
Contents |
OpenSTA
OpenSTA is an open source tool for performance testing and it is used for automating test cases, generating scripts that contain the http (or https) requests executed in each test case, and it allows modifications in order to perform some actions (such as introducing validations, conditions, parameterizations, etc.). In the figure below, we can appreciate the format of an OpenSTA script.
Moreover, OpenSTA allows us to mount test scenarios where we can define the amount of active users, the number of iterations, the way in which users access the system and other options that let us represent the most realistic scenario. The figure below shows an example of a scenario.
Regarding performance, OpenSTA is one of the best tool due to the following:
- It allows to introduce a large number of virtual users for each load generating computer.
- It simplifies the load distribution.
- It presents a model to assembly the scenario simulation which is well-oriented to web applications.
- It presents lots of options to analyze the results such as: numerous charts, tables, etc.
- The development productivity is much higher once you have experience with the tool.
On the other hand, a drawback of OpenSTA is the test case recording process. When recording the test cases we get a script with the http requests that were made, therefore, for someone that has no knowledge of the application, it will be really difficult to identify each step, or what each request does. Many times, in order to have a clearer script, we can introduce comments between each step during the recording, as well as timers that control the timing of each step. If on top of that, we want to add validations or parameterized variables, we can conclude that doing a script with OpenSTA is a tedious task and it may be annoying in those projects where the application’s code is being constantly changed, which means that the scripts have to be often re-generated.
It is advisable for a performance project that OpenSTA measurements are complemented with GX monitoring tools, such as JMX.
Generating OpenSTA scripts with GXtest
As it was mentioned in the introduction, GXtest presents an alternative that allows us to overcome this difficulty.
Thanks to its new functionality, GXtest can generate OpenSTA scripts from a previously recorded test case. This gives many advantages to the tester:
- Recording the test cases with GXtest, which is done in a much more practical way and allows to add validations and more options which are mentioned in other articles.
- Automatization of the most tedious parts of the script, without the need of wasting time in executing repetitive tasks.
- In the event of a change in the application, the possibility of taking those changes to GXtest and then re-generate the scripts in an easy way, without the need of recording them again in GXtest.
- No need of introducing validations manually, timers or parametrizations. Normally, this turns into a considerably long task and usually presents problems. GXtest automatically introduces all these elements.
- Having the secondary requests (css, gif, jpg, js, etc.) in separate files, away from the primary ones. This allows to have a clearer script which makes analysing easier.
- The use of debugging flags that condition the secondary requests and log messages.
- Support of NTLM authentication.
- Automatical management of all redirects.
How does the script generator work?
The performance script is created by clicking the GXtest button "Generate OpenSTA scripts".
When sending the request to create an OpenSTA script, the test case will start executing as usual in the user’s screen. Nevertheless, there are many different actions happening internally: in the course of the test case execution, a xml file is created with all the GXtest commands that are being used in the test, while http requests are recorded into a saz extension file. This files are left inside a folder with the name of the test case, where the GXtest Designer is installed, normally in: Abstracta\GXtest Designer\Performance\ExecutionLog\.
The saz format belongs to the Fiddler tool, which is a proxy that records http traffic between Internet and the PC, that then can be analyzed by introducing breakpoints, editing requests at protocol level, etc.
With these two files (xml and saz), the OpenSTA script is generated using GXtest commands from the xml file and http(s) requests from the saz file. Once the execution is completed, the resulting script will have each GXtest command that was executed, associated with the http(s) requests that are involved in each of them, with their appropriate timers, and in the case they have been introduced, the corresponding validations. Moreover, if the GXtest test case uses a variable which value is taken from a datapool, it will appear parameterized in the OpenSTA script. These files are created in the folder Abstracta\GXtest Designer\Repository.
In general, the resulting scripts are ready to be executed without doing any changes. Although, depending on the system, some modifications might be done to add conditions, variables, validations, etc., so the script will behave as real as possible.
Installing OpenSTA
Abstracta made some bug fixes over the last official released version of OpenSTA. In order to apply these fixes, it is necessary to install the last released version of OpenSTA, and download the fix here. Finally, apply the patch following the instructions in the readme file inside the downladed files.
Summary
GXtest allows to create scripts to use in performance tests with the OpenSTA tool. When generating the scripts from GXtest, the tester saves loads of time from doing repetitive tasks, and it gives him the possibility to focus on other activities to reduce the amount of performance errors and therefore obtain a better quality product.