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- Usable Security (12)
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XML Encryption and XML Signature are fundamental security standards forming the core for many applications which require to process XML-based data. Due to the increased usage of XML in distributed systems and platforms such as in SOA and Cloud settings, the demand for robust and effective security mechanisms increased as well. Recent research work discovered, however, substantial vulnerabilities in these standards as well as in the vast majority of the available implementations. Amongst them, the so-called XML Signature Wrapping attack belongs to the most relevant ones. With the many possible instances of this attack type, it is feasible to annul security systems relying on XML Signature and to gain access to protected resources as has been successfully demonstrated lately for various Cloud infrastructures and services. This paper contributes a comprehensive approach to robust and effective XML Signatures for SOAP-based Web Services. An architecture is proposed, which integrates the r equired enhancements to ensure a fail-safe and robust signature generation and verification. Following this architecture, a hardened XML Signature library has been implemented. The obtained evaluation results show that the developed concept and library provide the targeted robustness against all kinds of known XML Signature Wrapping attacks. Furthermore the empirical results underline, that these security merits are obtained at low efficiency and performance costs as well as remain compliant with the underlying standards.
XML Signature Wrapping (XSW) has been a relevant threat to web services for 15 years until today. Using the Personal Health Record (PHR), which is currently under development in Germany, we investigate a current SOAP-based web services system as a case study. In doing so, we highlight several deficiencies in defending against XSW. Using this real-world contemporary example as motivation, we introduce a guideline for more secure XML signature processing that provides practitioners with easier access to the effective countermeasures identified in the current state of research.
Der Arbeitskreis Usable Security & Privacy bietet ein Forum für den Gedankenaustausch und die interdisziplinäre Zusammenarbeit rund um das Thema benutzerfreundliche Informationssicherheit und privatheitsfördernde Technologien. Sicherheit ist bei der Anschaffung von Software und Technikprodukten zwar eines der zentralen Auswahlkriterien – aufgrund mangelnder Gebrauchstauglichkeit werden die vorhandenen Sicherheitsfunktionen und -mechanismen von den Nutzern jedoch oft falsch oder überhaupt nicht bedient. Im alltäglichen Gebrauch ergeben sich hierdurch Sicherheitsgefährdungen beim Umgang mit IKT-Systemen bzw. -Produkten und den darin enthaltenen sensiblen Daten. Im Workshop werden mit den Teilnehmern Beispiele diskutiert und es wird gemeinsam ein Stimmungsbild zum Verständnis, zum Stellenwert und zum aktuellen Grad der Umsetzung von Usable Security & Privacy erhoben. Ergebnis des Workshops ist ein Positionspapier, in dem die aktuellen Problemfelder und die wichtigsten Herausforderungen aus Sicht der Usability und UX Professionals beschrieben sind.
In education, finding the appropriate learning pace that fits to the members of a large group is a challenging task. This becomes especially evident when teaching multidisciplinary subjects such as epidemiology in medicine or computer science in most study programs, since lecturers have to face a very heterogeneous state of previous knowledge. Approaching this issue requires an individual supervision of each and every student, which is obviously bounded by the available resources. Moreover, when referring back to the second example, writing computer programs requires a complex installation and configuration of development tools. Many beginning programmers already become stuck at this entry stage. This paper introduces WHELP, a Web-based Holistic E-Learning Platform, which provides an integrated environment enabling the learning and teaching of computer science topics without the need to install any software. Moreover, WHELP includes an interactive feedback system for each programming exercise, where lecturers or tutors can supply comments, improvements, code assistance or tips helping the students to accomplish their tasks. Furthermore, WHELP offers a statistical analysis module as well as a real-time classroom polling system both promoting an overview of the state of knowledge of a course. In addition to that, WHELP enables collaborative working including code-sharing and peer-to-peer learning. This feature enables students to work on exercises simultaneously at distinct places. WHELP has been successfully deployed in the winter term 2013 at the Cologne University of Applied Sciences supporting the 120 students and 3 lecturers to learn and teach basic topics of computer science in an engineering study program.
Risk-based authentication (RBA) aims to strengthen password-based authentication rather than replacing it. RBA does this by monitoring and recording additional features during the login process. If feature values at login time differ significantly from those observed before, RBA requests an additional proof of identification. Although RBA is recommended in the NIST digital identity guidelines, it has so far been used almost exclusively by major online services. This is partly due to a lack of open knowledge and implementations that would allow any service provider to roll out RBA protection to its users.
To close this gap, we provide a first in-depth analysis of RBA characteristics in a practical deployment. We observed N=780 users with 247 unique features on a real-world online service for over 1.8 years. Based on our collected data set, we provide (i) a behavior analysis of two RBA implementations that were apparently used by major online services in the wild, (ii) a benchmark of the features to extract a subset that is most suitable for RBA use, (iii) a new feature that has not been used in RBA before, and (iv) factors which have a significant effect on RBA performance. Our results show that RBA needs to be carefully tailored to each online service, as even small configuration adjustments can greatly impact RBA's security and usability properties. We provide insights on the selection of features, their weightings, and the risk classification in order to benefit from RBA after a minimum number of login attempts.
Risk-based authentication (RBA) aims to strengthen password-based authentication rather than replacing it. RBA does this by monitoring and recording additional features during the login process. If feature values at login time differ significantly from those observed before, RBA requests an additional proof of identification. Although RBA is recommended in the NIST digital identity guidelines, it has so far been used almost exclusively by major online services. This is partly due to a lack of open knowledge and implementations that would allow any service provider to roll out RBA protection to its users. To close this gap, we provide a first in-depth analysis of RBA characteristics in a practical deployment. We observed N=780 users with 247 unique features on a real-world online service for over 1.8 years. Based on our collected data set, we provide (i) a behavior analysis of two RBA implementations that were apparently used by major online services in the wild, (ii) a benchmark of the features to extract a subset that is most suitable for RBA use, (iii) a new feature that has not been used in RBA before, and (iv) factors which have a significant effect on RBA performance. Our results show that RBA needs to be carefully tailored to each online service, as even small configuration adjustments can greatly impact RBA's security and usability properties. We provide insights on the selection of features, their weightings, and the risk classification in order to benefit from RBA after a minimum number of login attempts.
Dieses Buch führt Sie umfassend in die WebSocket-Technik und die damit einhergehenden neuen Entwicklungsmöglichkeiten ein. Unter den zahlreichen exemplarischen Anwendungen finden sich Beispiele auf Basis von Node.js, Vert.x, und JSR 356, als Programmiersprachen werden Java und JavaScript eingesetzt.
Web of Services Security
(2015)
Software development is a complex task. Merely focussing on functional requirements is not sufficient any more. Developers are responsible to take many non-functional requirements carefully into account. Security is amongst the most challenging, as getting it wrong will result in a large user-base being potentially at risk. A similar situation exists for administrators. Security defaults have been put into place here to encounter lacking security controls. As first attempts to establish security by default in software development are flourishing, the question on their usability for developers arises.
In this paper we study the effectiveness and efficiency of Content Security Policy (CSP) enforced as security default in a web framework. When deployed correctly, CSP is a valid protection mean in a defence-in-depth strategy against code injection attacks. In this paper we present a first qualitative laboratory study with 30 participants to discover how developers deal with CSP when deployed as security default. Our results emphasize that the deployment as security default has its benefits but requires careful consideration of a comprehensive information flow in order to improve and not weaken security. We provide first insights to inform research about aiding developers in the creation of secure web applications with usable security by default.
Echtzeit-orientierte Multimedia-Kommunikation im Internet eröffnet eine Vielzahl neuer Anwendungen. Diese innovative Kommunikationsplattform ist gerade für weltweit operierende Unternehmen von Interesse. So können z.B. durch die Verwendung von VoIP-Lösungen oder Groupware-Applikationen Kosten gesenkt und gleichzeitig die Zusammenarbeit der Mitarbeiter optimiert werden. Dies trifft auch für Video-Konferenzsysteme zu. Anstelle regelmäßiger Meetings, die meist mit Dienstreisen eines Großteils der Teilnehmer verbunden sind, können Konferenzen virtuell durch die Übertragung von Sprachund Videodaten über das Internet abgehalten werden. Die Akzeptanz der beschriebenen Kommunikationsanwendungen hängt stark von den Faktoren Dienstgüte und Sicherheit ab. Die Übertragung der echtzeit-orientierten Mediendaten muss möglichst kontinuierlich erfolgen, so dass sowohl eine ruckelfreie Wiedergabe der Sprache als auch der Bewegtbilder möglich ist. Da Konferenzen firmenintern und vertraulich sind, werden sie hinter verschlossener Tür abgehalten. Das Pendant in der elektronischen Welt muss eine Entsprechung anbieten. Se- curity-Mechanismen haben allerdings einen Einfluss auf Dienstgüteparameter. Dies muss bei der Entwicklung von Techniken zum Schutz multimedialer Kommunikation berücksichtigt und abgestimmt werden. Dieser Beitrag zeigt anhand des Beispiels eines Video-Konferenzsystems für das Internet, wie Sicherheitsmechanismen in echtzeit-orientierte Multimedia-Kommunikationsanwendungen unter Berücksichtigung von Quality of Service (QoS) integriert werden können.
Risk-based authentication (RBA) is an adaptive security measure to strengthen password-based authentication against account takeover attacks. Our study on 65 participants shows that users find RBA more usable than two-factor authentication equivalents and more secure than password-only authentication. We identify pitfalls and provide guidelines for putting RBA into practice.
This paper gives necessary foundations to understand the mechanism of warning processing and summarizes the state of the art in warning development. That includes a description of tools, researchers use to work in this scientific field. In detail these are models that describes the human way of processing warnings and mental models. Both are presented detailed with relevant examples. The paper tells how these tools are connected and how they are used to improve the effectiveness of warnings.
Wie im Artikel „Usable Security – benutzerfreundliche Sicherheitsfunktionen für Software und interaktive Produkte“ in diesem Heft bereits herausgestellt wurde, gibt es einen hohen bedarf an gebrauchstauglichen sicherheitskomponenten in der softwarebranche.1 Dies bedeutet für softwarearchitekten und Programmierer, dass sie das neue Qualitätsmerkmal Usable Security vermehrt berücksichtigen und umsetzen müssen. seit Mai 2015 werden daher im Rahmen des Projekts usecureD („usable security by Design“, siehe Kasten in schmitt et. al (2016)) Methoden und Werkzeuge für softwareentwickler entworfen und umgesetzt, die bei der entwicklung von digitalen Artefakten mit dem Qualitätsmerkmal Usable Security unterstützen.
Usable Security – Benutzerfreundliche Sicherheitsfunktionen für Software und interaktive Produkte
(2017)
Sowohl im geschäftlichen wie im privaten Umfeld müssen Software, Apps und vernetzte Technikprodukte mit Sicherheitsfunktionen ausgestattet sein, die auch für Laien und Gelegenheitsnutzer verständlich und benutzbar sind. Im Umgang mit sensiblen Daten können sich diese Produkte ansonsten schnell als Risiko entpuppen, etwa wenn Sicherheitsmechanismen aufgrund mangelnder Usability von den Nutzern falsch oder überhaupt nicht bedient werden. Der Begriff „Usable Security“ bezeichnet ein Qualitätsmerkmal bzw. einen Entwicklungsansatz für Sicherheitskomponenten von Software und technischen Produkten, in dessen Zentrum der Benutzer steht. Dieser Beitrag soll als Einführung in das Thema Usable Security dienen und zugleich für die Probleme bei der Entwicklung gebrauchstauglicher Sicherheitsfunktionen sensibilisieren. Er ist Teil einer Serie von insgesamt drei Artikeln. Die folgenden zwei Beiträge vertiefen spezifische Themen im Kontext der Entwicklung von Sicherheitsfunktionen auf Grundlage von Muster lösungen (Patterns) und der Ausgestaltung von Warnhinweisen.
Forschen, forschen und nochmal forschen: Genau das haben sich Hartmut Schmitt, Peter Nehren, Luigi Lo Iacono und Peter Leo Gorski in diesem shortcut zur Aufgabe gemacht. In fünf Kapiteln stellen sie die Ergebnisse des Forschungsprojekts "USecureD - Usable Security by Design" vor und unterstützen damit Softwareentwickler bei der systematischen Entwicklung von Produkten mit dem Qualititäsmerkmal "Usable Security". Forschen Sie selbst ein wenig mit und lernen Sie alles zu spannenden Anwendungsmöglichketen, Werkzeugen, Testplattformen und Entscheidungshilfen.