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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Integrating secure programming concepts in introductory programming courses

Jama, Fartun January 2020 (has links)
The number of vulnerable systems with exploitable security defects has increased. This led to an increase in the demand for secure software systems. Software developers lack security experiences to design and build secure software, some even believe security is not their responsibility. Despite the increased need for teaching security and secure programming, security is not well integrated into the undergraduate computing curriculum and is only offered as part of a program or as an elective course. The aim of this project is to outline the importance of incorporating security and secure programming concepts in programming courses starting from the introductory courses. By evaluating the students' security consideration and knowledge regarding software security. As a result, based on the knowledge students lack regarding software security, security and secure programming concepts are identified which need to be integrated into the programming courses.
2

Visualizing Memory Utilization for the Purpose of Vulnerability Analysis

McConnell, William Charles 02 July 2008 (has links)
The expansion of the internet over recent years has resulted in an increase in digital attacks on computers. Most attacks, including the more dangerous ones, directly target program vulnerabilities. The increase in attacks has prompted a need to develop new ways to classify, detect, and avoid vulnerabilities. The effectiveness of these goals relies on the development of new methods and tools that facilitate the process of detecting vulnerabilities and exploits. This thesis presents the development of a tool that provides a visual representation of main memory for the purpose of security analysis. The tool provides new insight into memory utilization by software; users are able to see memory utilization as execution time progression, visually distinguish between memory behaviors (allocations, writes, etc), and visually observe special relationships between memory locations. The insight enables users to search for visual evidence that software is vulnerable, violated, or utilizing memory incorrectly. The development process for our visual tool has three stages: (1) identifying the memory utilization policies of the Windows 32-bit operating system; (2) identifying the data required for visual representations of memory and then implementing one possible method to capture the data; and (3) enumerating and implementing requirements for a memory tool that generates visual representations of memory for the purpose of vulnerability and exploit analysis. / Master of Science
3

A Method for Recommending Computer-Security Training for Software Developers

Nadeem, Muhammad 12 August 2016 (has links)
Vulnerable code may cause security breaches in software systems resulting in financial and reputation losses for the organizations in addition to loss of their customers’ confidential data. Delivering proper software security training to software developers is key to prevent such breaches. Conventional training methods do not take the code written by the developers over time into account, which makes these training sessions less effective. We propose a method for recommending computer–security training to help identify focused and narrow areas in which developers need training. The proposed method leverages the power of static analysis techniques, by using the flagged vulnerabilities in the source code as basis, to suggest the most appropriate training topics to different software developers. Moreover, it utilizes public vulnerability repositories as its knowledgebase to suggest community accepted solutions to different security problems. Such mitigation strategies are platform independent, giving further strength to the utility of the system. This research discussed the proposed architecture of the recommender system, case studies to validate the system architecture, tailored algorithms to improve the performance of the system, and human subject evaluation conducted to determine the usefulness of the system. Our evaluation suggests that the proposed system successfully retrieves relevant training articles from the public vulnerability repository. The human subjects found these articles to be suitable for training. The human subjects also found the proposed recommender system as effective as a commercial tool.
4

Recherche de vulnérabilités logicielles par combinaison d'analyses de code binaire et de frelatage (Fuzzing) / Software vulnerability research combining fuzz testing and binary code analysis

Bekrar, Sofia 10 October 2013 (has links)
Le frelatage (ou fuzzing) est l'une des approches les plus efficaces pour la détection de vulnérabilités dans les logiciels de tailles importantes et dont le code source n'est pas disponible. Malgré une utilisation très répandue dans l'industrie, les techniques de frelatage "classique" peuvent avoir des résultats assez limités, et pas toujours probants. Ceci est dû notamment à une faible couverture des programmes testés, ce qui entraîne une augmentation du nombre de faux-négatifs; et un manque de connaissances sur le fonctionnement interne de la cible, ce qui limite la qualité des entrées générées. Nous présentons dans ce travail une approche automatique de recherche de vulnérabilités logicielles par des processus de test combinant analyses avancées de code binaire et frelatage. Cette approche comprend : une technique de minimisation de suite de tests, pour optimiser le rapport entre la quantité de code testé et le temps d'exécution ; une technique d'analyse de couverture optimisée et rapide, pour évaluer l'efficacité du frelatage ; une technique d'analyse statique, pour localiser les séquences de codes potentiellement sensibles par rapport à des patrons de vulnérabilités; une technique dynamique d'analyse de teinte, pour identifier avec précision les zones de l'entrée qui peuvent être à l'origine de déclenchements de vulnérabilités; et finalement une technique évolutionniste de génération de test qui s'appuie sur les résultats des autres analyses, afin d'affiner les critères de décision et d'améliorer la qualité des entrées produites. Cette approche a été mise en œuvre à travers une chaîne d'outils intégrés et évalués sur de nombreuses études de cas fournies par l'entreprise. Les résultats obtenus montrent son efficacité dans la détection automatique de vulnérabilités affectant des applications majeures et sans accès au code source. / Fuzz testing (a.k.a. fuzzing) is one of the most effective approaches for discovering security vulnerabilities in large and closed-source software. Despite their wide use in the software industry, traditional fuzzing techniques suffer from a poor coverage, which results in a large number of false negatives. The other common drawback is the lack of knowledge about the application internals. This limits their ability to generate high quality inputs. Thus such techniques have limited fault detection capabilities. We present an automated smart fuzzing approach which combines advanced binary code analysis techniques. Our approach has five components. A test suite reduction technique, to optimize the ratio between the amount of covered code and the execution time. A fast and optimized code coverage measurement technique, to evaluate the fuzzing effectiveness. A static analysis technique, to locate potentially sensitive sequences of code with respect to vulnerability patterns. An origin-aware dynamic taint analysis technique, to precisely identify the input fields that may trigger potential vulnerabilities. Finally, an evolutionary based test generation technique, to produce relevant inputs. We implemented our approach as an integrated tool chain, and we evaluated it on numerous industrial case studies. The obtained results demonstrate its effectiveness in automatically discovering zero-day vulnerabilities in major closed-source applications. Our approach is relevant to both defensive and offensive security purposes.
5

Jämförelse av statiska kodanalysverktyg : En fallstudie om statiska kodanalysverktygs förmåga att hitta sårbarheter i kod / Comparison of static code analysis tools: A case study of static code analysis tools ability to find code vulnerabilities

Holmberg, Anna January 2020 (has links)
Security deficiencies that occur in web applications can have major consequences. PHP is a language that is often used for web applications and it places high demands on how the language is used to ensure it is safe. There are several features in PHP that should be handled with care to avoid security flaws. Static code analysis can help find vulnerabilities in code, but there are some drawbacks that can occur with static code analysis tools. One disadvantage is false positives which means that the tool reports vulnerabilities that do not exist. There are also false negatives which means the tool cannot find the vulnerability at all which can lead to a false sense of security for the user of the tool. With the help of completed test cases, three tools have been investigated in a case study to find out if the tools differ in their ability to avoid false positives and false negatives. The study also examines whether the tools' rules consider the PHP language's vulnerable functions. To answer the research question, a document collection was conducted to obtain information about the tools and various vulnerabilities. The purpose of this study is to compare the ability of static code analysis tools to find PHP code vulnerabilities. The tools that were investigated were SonarQube, Visual Code Grepper (VCG) and Exakat. The study's analysis shows that VCG found the most vulnerabilities but failed to avoid false positive vulnerabilities. Exakat had zero false positives but could not avoid false negatives to the same extent as VCG. SonarQube avoided all false positives but did not find any of the vulnerabilities tested in the test cases. According to the rules of the tools, VCG had more consideration for the risky functions found in PHP. The study's results show that the tools' ability to avoid false positives and false negatives differed and their adaptation to the PHP language's vulnerable functions. / Säkerhetsbrister som förekommer i webbapplikationer kan leda till stora konsekvenser. PHP är ett språk som ofta används för webbapplikationer och det ställer höga krav på hur språket används för att det ska vara säkert. Det finns flera funktioner i PHP som bör hanteras varsamt för att inte säkerhetsbrister ska uppstå. Statisk kodanalys kan hjälpa till med att hitta sårbarheter i kod men det finns vissa nackdelar som kan uppkomma med statiska kodanalysverktyg. En nackdel är falska positiva vilket betyder att verktyget rapporterar in sårbarheter som inte finns. Det finns också falska negativa som betyder att verktyget inte hittar sårbarheten alls vilket kan leda till en falsk trygghetskänsla för användaren av verktyget. Med hjälp av färdiga testfall så har tre verktyg utretts i en fallstudie för att ta reda på om verktygen skiljer sig i sin förmåga till att undvika falska positiva och falska negativa. Studien undersöker också om verktygens regler tar PHP-språkets sårbara funktioner i beaktning. För att kunna besvara forskningsfrågan har en dokumentsinsamling genomförts för att få information om verktygen och olika sårbarheter. Studiens syfte är att jämföra statiska kodanalysverktygs förmåga att hitta sårbarheter i PHP-kod. De verktyg som utreddes var SonarQube, Visual Code Grepper (VCG) och Exakat. Studiens analys visar att VCG hittade mest sårbarheter men lyckades inte undvika falska positiva sårbarheter. Exakat hade noll falska positiva men kunde inte undvika falska negativa i lika stor utsträckning som VCG. SonarQube undvek alla falska positiva men hittade inte någon av de sårbarheter som testades i testfallen. Enligt verktygens regler visade sig VCG ta mest hänsyn till de riskfyllda funktioner som finns i PHP. Studiens resultat visar att verktygens förmåga att undvika falska positiva och falska negativa och deras anpassning för PHP språkets sårbara funktioner skiljde sig åt.
6

Towards Understanding and Securing the OSS Supply Chain

Vu Duc, Ly 14 March 2022 (has links)
Free and Open-Source Software (FOSS) has become an integral part of the software supply chain in the past decade. Various entities (automated tools and humans) are involved at different stages of the software supply chain. Some actions that occur in the chain may result in vulnerabilities or malicious code injected in a published artifact distributed in a package repository. At the end of the software supply chain, developers or end-users may consume the resulting artifacts altered in transit, including benign and malicious injection. This dissertation starts from the first link in the software supply chain, ‘developers’. Since many developers do not update their vulnerable software libraries, thus exposing the user of their code to security risks. To understand how they choose, manage and update the libraries, packages, and other Open-Source Software (OSS) that become the building blocks of companies’ completed products consumed by end-users, twenty-five semi-structured interviews were conducted with developers of both large and small-medium enterprises in nine countries. All interviews were transcribed, coded, and analyzed according to applied thematic analysis. Although there are many observations about developers’ attitudes on selecting dependencies for their projects, additional quantitative work is needed to validate whether behavior matches or whether there is a gap. Therefore, we provide an extensive empirical analysis of twelve quality and popularity factors that should explain the corresponding popularity (adoption) of PyPI packages was conducted using our tool called py2src. At the end of the software supply chain, software libraries (or packages) are usually downloaded directly from the package registries via package dependency management systems under the comfortable assumption that no discrepancies are introduced in the last mile between the source code and their respective packages. However, such discrepancies might be introduced by manual or automated build tools (e.g., metadata, Python bytecode files) or for evil purposes (malicious code injects). To identify differences between the published Python packages in PyPI and the source code stored on Github, we developed a new approach called LastPyMile . Our approach has been shown to be promising to integrate within the current package dependency management systems or company workflow for vetting packages at a minimal cost. With the ever-increasing numbers of software bugs and security vulnerabilities, the burden of secure software supply chain management on developers and project owners increases. Although automated program repair approaches promise to reduce the burden of bug-fixing tasks by suggesting likely correct patches for software bugs, little is known about the practical aspects of using APR tools, such as how long one should wait for a tool to generate a bug fix. To provide a realistic evaluation of five state-of-the-art APR tools, 221 bugs from 44 open-source Java projects were run within a reasonable developers’ time and effort.

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