Threats and countermeasures for network security

In the late 1980's, the traditional threat of anonymous break-ins to networked computers was joined by viruses and worms, multiplicative surrogates that carry out the bidding of their authors. Technologies for authentication and secrecy, supplemented by good management practices, are the principal countermeasures. Four articles on these subjects are presented

Beyond Passswords: Usage and Policy Transformation

The purpose of this research is to determine whether the transition to a two-factor authentication system is more secure than a system that relied only on what users “know” for authentication. While we found that factors that made passwords inherently vulnerable did not transfer to the PIN portion of a two-factor authentication system, we did find significant problems relating to usability, worker productivity, and the loss and theft of smart cards. The new authentication method has disrupted our ability to stay connected to ongoing mission issues, forced some installations to cut off remote access for their users and in one instance, caused a reserve unit to regress 10 years in their notification and recall procedures. The best-case scenario for lost productivity due to users leaving their CAC at work, in their computer, is costing 261 work years per year with an estimated cost of 10.4 million payroll dollars. Finally, the new authentication method is causing an increase in the loss or theft of CACs, our primary security mechanism for accessing DoD installations, at a rate of 28,222 a year. A single tool, such as the CAC, for all systems and services, carries much power, are we prepared for the responsibility

Securing PIN-based Authentication in Smartwatches With just Two Gestures

Smartwatches are becoming increasingly ubiquitous as they offer new capabilities to develop sophisticated applications that make daily life easier and more convenient for consumers. The services provided include applications for mobile payment, ticketing, identification, access control, etc. While this makes modern smartwatches very powerful devices, it also makes them very attractive targets for attackers. Indeed, PINs and Pattern Lock have been widely used in smartwatches for user authentication. However, such authentication methods are not robust against various forms of cybersecurity attacks, such as side channel, phishing, smudge, shoulder surfing, and video recording attacks. Moreover, the recent adoption of hardware-based solutions, like the Trusted Execution Environment (TEE), can mitigate only partially such problems. Thus, the user’s security and privacy are at risk without a strong authentication scheme in place. In this work, we propose 2GesturePIN, a new authentication framework that allows users to authenticate securely to their smartwatches and related sensitive services through solely two gestures. 2GesturePIN leverages the rotating bezel or crown, which are the most intuitive ways to interact with a smartwatch, as a dedicated hardware. 2GesturePIN improves the resilience of the regular PIN authentication method against state-of-the-art cybersecurity attacks while maintaining a high level of usability

Study and development of a remote biometric authentication protocol

This paper reports the phases of study and implementation of a remote biometric authentication protocol developed during my internship at the I.i.t. of the C.n.r. in Pisa. Starting from the study of authentication history we had a look from the first system used since the 60ies to the latest technology; this helped us understand how we could realize a demonstration working protocol that could achieve a web remote authentication granting good reliability: to do this we choosed to modify the SSL handshake with biometric tests and we decided to use smart-cards a secure vault for the sensible biometric data involved. In the first chapter you will find a brief definition of authentication and an introduction on how we can achieve it, with a particular focus on new biometric techniques. In the second chapter there\u27s the history of authentication from the very first password system to actual ones: new token and smart card technolgies are longer stressed in order to introduce the reader to the last chapter. In the third chapter you will find the project framework, the development of our implementation choiches and the source code of the demo project

Development of a model for smart card based access control in multi-user, multi-resource, multi-level access systems

The primary focus of this research is an examination of the issues involved in the granting of access in an environment characterised by multiple users, multiple resources and multiple levels of access permission. Increasing levels of complexity in automotive systems provides opportunities for improving the integration and efficiency of the services provided to the operator. The vehicle lease / hire environment provided a basis for evaluating conditional access to distributed, mobile assets where the principal medium for operating in this environment is the Smart Card. The application of Smart Cards to existing vehicle management systems requires control of access to motor vehicles, control of vehicle operating parameters and secure storage of operating information. The issues addressed include examination of the characteristics of the operating environment, development of a model and design, simulation and evaluation of a multiple application Smart Card. The functions provided by the card include identification and authentication, secure hash and encryption functions which may be applied, in general, to a wide range of access problems. Evaluation of the algorithms implemented indicate that the Smart Card design may be provably secure under single use conditions and conditionally secure under multiple use conditions. The simulation of the card design provided data to support further research and shows the design is practical and able to be implemented on current Smart Card types

Password Cracking and Countermeasures in Computer Security: A Survey

With the rapid development of internet technologies, social networks, and other related areas, user authentication becomes more and more important to protect the data of the users. Password authentication is one of the widely used methods to achieve authentication for legal users and defense against intruders. There have been many password cracking methods developed during the past years, and people have been designing the countermeasures against password cracking all the time. However, we find that the survey work on the password cracking research has not been done very much. This paper is mainly to give a brief review of the password cracking methods, import technologies of password cracking, and the countermeasures against password cracking that are usually designed at two stages including the password design stage (e.g. user education, dynamic password, use of tokens, computer generations) and after the design (e.g. reactive password checking, proactive password checking, password encryption, access control). The main objective of this work is offering the abecedarian IT security professionals and the common audiences with some knowledge about the computer security and password cracking, and promoting the development of this area.Comment: add copyright to the tables to the original authors, add acknowledgement to helpe

Eesti elektrooniline ID-kaart ja selle turvaväljakutsed

Eesti elektrooniline isikutunnistust (ID-kaart) on üle 18 aasta pakkunud turvalist elektroonilist identiteeti Eesti kodanikele. Avaliku võtme krüptograafia ja kaardile talletatud privaatvõti võimaldavad ID-kaardi omanikel juurde pääseda e-teenustele, anda juriidilist jõudu omavaid digiallkirju ning elektrooniliselt hääletada. Käesolevas töös uuritakse põhjalikult Eesti ID-kaarti ning sellega seotud turvaväljakutseid. Me kirjeldame Eesti ID-kaarti ja selle ökosüsteemi, seotud osapooli ja protsesse, ID-kaardi elektroonilist baasfunktsionaalsust, seotud tehnilisi ja juriidilisi kontseptsioone ning muid seotud küsimusi. Me tutvustame kõiki kasutatud kiipkaardiplatforme ja nende abil väljastatud isikutunnistuste tüüpe. Iga platformi kohta esitame me detailse analüüsi kasutatava asümmeetrilise krüptograafia funktsionaalsusest ning kirjeldame ja analüüsime ID-kaardi kauguuendamise lahendusi. Lisaks esitame me süstemaatilise uurimuse ID-kaardiga seotud turvaintsidentidest ning muudest sarnastest probleemidest läbi aastate. Me kirjeldame probleemide tehnilist olemust, kasutatud leevendusmeetmeid ning kajastust ajakirjanduses. Käesoleva uurimustöö käigus avastati mitmeid varem teadmata olevaid turvaprobleeme ning teavitati nendest seotud osapooli. Käesolev töö põhineb avalikult kättesaadaval dokumentatsioonil, kogutud ID-kaartide sertifikaatide andmebaasil, ajakirjandusel,otsesuhtlusel seotud osapooltega ning töö autori analüüsil ja eksperimentidel.For more than 18 years, the Estonian electronic identity card (ID card) has provided a secure electronic identity for Estonian residents. The public-key cryptography and private keys stored on the card enable Estonian ID card holders to access e-services, give legally binding digital signatures and even cast an i-vote in national elections. This work provides a comprehensive study on the Estonian ID card and its security challenges. We introduce the Estonian ID card and its ecosystem by describing the involved parties and processes, the core electronic functionality of the ID card, related technical and legal concepts, and the related issues. We describe the ID card smart card chip platforms used over the years and the identity document types that have been issued using these platforms. We present a detailed analysis of the asymmetric cryptography functionality provided by each ID card platform and present a description and security analysis of the ID card remote update solutions that have been provided for each ID card platform. As yet another contribution of this work, we present a systematic study of security incidents and similar issues the Estonian ID card has experienced over the years. We describe the technical nature of the issue, mitigation measures applied and the reflections on the media. In the course of this research, several previously unknown security issues were discovered and reported to the involved parties. The research has been based on publicly available documentation, collection of ID card certificates in circulation, information reflected in media, information from the involved parties, and our own analysis and experiments performed in the field.https://www.ester.ee/record=b541416

Payment Terminal Emulator

Atualmente, os pagamentos em dinheiro estão a tornar-se menos populares. No entanto, poucas pessoas conhecem a complexidade que se encontra por detrás da inserção do cartão no terminal PoS (ponto de venda), introdução do PIN e recolha do recibo). Esse processo de pagamento é implementado pelas empresas FinTech, que fornecem aos bancos e comerciantes terminais PoS prontos para uso. A fase mais cara e demorada da integração da solução de pagamento é a certificação do software do terminal. Neste trabalho, consideramos o protocolo de comunicação entre um cartão inteligente e um terminal PoS baseado nas especificações internacional EMV (Europay Mastercard Visa), juntamente com suas vulnerabilidades conhecidas. Para melhorar o processo de certificação numa empresa FinTech em Portugal, um software independente foi sugerido para emulação do fluxo de pagamento de EMV completo. Neste trabalho, apresentamos os detalhes sobre a implementação da aplicação 3C Emulator.Nowadays, cash payments are becoming less popular and few understand, what a complicated process stands behind the habitual inserting the card into PoS (Point-of-Sale) terminal. This payment process are implemented by FinTech companies, that provide banks and merchants with ready-to-use PoS terminals. And the most expensive and time-consuming phase of payment solution integration is is the certification of terminal software. In this work we consider communication protocol between a smart card and a PoS terminal based on EMV (Europay Mastercard Visa) international standard, together with its known vulnerabilities. In order to improve the certification process in one Portuguese FinTech company, standalone software for emulation of full EMV transaction workflow is suggested. We present details about implementation of 3C Emulator application