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Author: | Uitto, Marieta |
Title: | Stress testing SSH applications |
Publication type: | Master's thesis |
Publication year: | 2010 |
Pages: | (8) + 65 Language: eng |
Department/School: | Informaatio- ja luonnontieteiden tiedekunta |
Main subject: | Tietokoneverkot (T-110) |
Supervisor: | Aura, Tuomas |
Instructor: | Dobsik, Martin |
OEVS: | Electronic archive copy is available via Aalto Thesis Database.
Instructions Reading digital theses in the closed network of the Aalto University Harald Herlin Learning CentreIn the closed network of Learning Centre you can read digital and digitized theses not available in the open network. The Learning Centre contact details and opening hours: https://learningcentre.aalto.fi/en/harald-herlin-learning-centre/ You can read theses on the Learning Centre customer computers, which are available on all floors.
Logging on to the customer computers
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Location: | P1 Ark Aalto 6757 | Archive |
Keywords: | stress test automation framework quality assurance SSH secure shell |
Abstract (eng): | Stress, load and performance testing techniques represent an essential part of the system testing process and aim to ensure high-quality, dependable software. Often, the task of executing a basic stress test for a client-server application is in itself straightforward. The challenges in implementing a high-quality stress testing process arise when attempting to design, configure and execute a variety of test cases in a large, fast-changing test environment. Testing of advanced use cases usually requires complex configuration setup. In addition, the need to coordinate the simultaneous execution of multiple test cases, as well as to collect and analyze the results on each test host within given time limits contributes to the complexity of the process. In an agile development environment, it is necessary to execute the stress tests frequently. This creates a demand for automated stress setup and analysis of the results in order to reduce the number of manually executed repetitive and monotonous tasks. This thesis describes a stress automation framework that addresses these issues by providing a tool for automatic stress setup, execution and basic analysis of the results. The tool is able to control a large number of test cases across a diverse host environment from a central location. As a result, the presented implementation drastically reduces the time required from the quality-assurance engineers to execute advanced stress scenarios and increases the effectiveness of the stress testing process. |
ED: | 2010-09-02 |
INSSI record number: 40386
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