Longitudinal analysis of the certificate chains of big tech company domains / Longitudinell analys av certifikatkedjor till domäner tillhörande stora teknikföretag

Klasson, Sebastian, Lindström, Nina

January 2021

The internet is one of the most widely used mediums for communication in modern society and it has become an everyday necessity for many. It is therefore of utmost importance that it remains as secure as possible. SSL and TLS are the backbones of internet security and an integral part of these technologies are the certificates used. Certificate authorities (CAs) can issue certificates that validate that domains are who they claim to be. If a user trusts a CA they can in turn also trust domains that have been validated by them. CAs can in turn trust other CAs and this, in turn, creates a chain of trust called a certificate chain. In this thesis, the structure of these certificate chains is analysed and a longitudinal dataset is created. The analysis looks at how the certificate chains have changed over time and puts extra focus on the domains of big tech companies. The dataset created can also be used for further analysis in the future and will be a useful tool in the examination of historical certificate chains. Our findings show that the certificate chains of the domains studied do change over time; both their structure and the lengths of them vary noticeably. Most of the observed domains show a decrease in average chain length between the years of 2013 and 2020 and the structure of the chains vary significantly over the years.

certificate authorities

CA

certificate chains

certificates

certificate validation

HTTPS

network security

internet security

PKI

Project Sonar

SSL

TLS

X.509

Computer Sciences

Datavetenskap (datalogi)

The Status Of Web Security In Sweden

Alkhateeb, Firas

January 2022

Getting incorrect website content has increased in recent years, which is a reflection of the web security status on the Internet. However, when It comes to government and other professional organisations websites, they should have the best security requirements and follow security recommendations. This research will study websites located in the SE zone. The total number of investigated websites is 1166. The testing process was done in two ways. The firstway is a Dutch test website tool called Internet.nl. The second is using a tool developed as part of the research. The investigation focuses on Swedish websites and nine security extensions. These extensions prevent Man in the middle attack(MITM), downgrade attacks, Cross-Site Scripting (XSS), Click-jacking, and ensure that the correct information is obtained when a client requests a website. The paper evaluated the security between 2014 and 2022. What are the types of security taken and which sector has the best security awareness. The using of security headers had increased in 2022, the total use of tested security standards in the SE zone is around 50%, and banks have the best security awareness.

DNSsec

HTTPS

HSTS

X-Frame

X-Content-Type-Options

Content-Security-Policy (CSP)

Referrer-Policy

Digital certificate (X.509)

Computer Sciences

Datavetenskap (datalogi)

Security Culture in Sweden with Focus on Digital Certificate Culture in Organizations / Säkerhetskultur i Sverige med fokus på digitala certifikat i organisationer

Mohialdeen, Haneen, Draaijer, Johannes

January 2020

Digital certificates lie at the heart of security where effective security culture enables digital certificates to be widely and properly deployed in organizations. Digital certificates provide a way to secure websites and bank transactions, digitally sign documents and emails, enable secure access to remote locations on the internet through VPNs by providing a means for authentication, authorization, confidentiality, integrity, and non-repudiation. In this thesis, the barriers to an effective digital certificate security culture and the possibilities of misuse or misconception of certificates on both client and server side are investigated by first testing 49 scenarios for misuse and three for misconceptions in the network laboratory in Linnaeus University and, then by conducting a survey designed based on the eight dimensions of the Security Culture Framework. Possibilities for misuse were discovered and described in a Functional Scope Model and the most common barriers were found to be lack of funding and awareness regarding digital certificates within organizations. Overall, it was found that there is high usage, willingness and motivation in regards to certificates in organizations in Sweden but the quality of the digital certificate security culture needs to be improved.

Security Culture

Organisational Culture

X.509 Digital Certificates

Digital Certificate Security Culture

Information Systems, Social aspects

Computer Sciences

Datavetenskap (datalogi)

Computer and Information Sciences

Data- och informationsvetenskap

Information Systems

Communication Systems

Kommunikationssystem

Elektroninio parašo atributų sertifikavimas / Certification of electronic signature attributes

Lozda, Marius

27 June 2014

Darbe nagrinėjama atributinės informacijos sertifikavimo šiuo metu naudojamuose elektroniniuse parašuose problema. Trumpai apžvelgiami elektroninio parašo principai ir supažindinama su viešųjų raktų infrastruktūra, nurodant galimybes jai išplėsti, iškilus poreikiui užtikrinti aukštesnį saugumo lygį keičiantis papildoma (atributine) informacija. Nagrinėjami įvairūs atributinės informacijos sertifikavimo metodai, viešųjų raktų infrastruktūroje įvedant atributų sertifikato ir atributų sertifikavimo centro sąvokas. Pateikiamas tinkamiausio metodo pritaikymo pavyzdys, modeliuojant elektroninio parašo naudojimo situaciją, artimą dabartinei situacijai Lietuvoje. Sprendimo pritaikymas demonstruojamas apibrėžiant patobulintos elektroninio parašo infrastruktūros prototipą. / This paper analyses issues of attribute certification in currently used electronic signatures. Fundamentals of electronic signatures and public key infrastructure are briefly described, focusing on possibilities of achieving higher security level in communication when attribute information is important. Various suggestions for attribute certification are analysed, introducing atribute certificates and atribute authorities. Different certification methods are compared and evaluated, applying the most suitable one in the public key infrastructure usage model, that is constructed by simplifying the current situation of electronic signatures. The solution is represented by describing the prototype of improved electronic signature infrastructure.

Atributų sertifikavimas

Autorizacija

Autentifikacija

Atributinė informacija

Elektroninis parašas

Sertifikatas

Sertifikavimo centras

X.509

Parašo taisyklės

Prototipas

Skaitmeninis parašas

Viešųjų raktų infrastruktūra

Sertifikavimo veiklos nuostatai

Attribute certification

Authorization

Autentification

Digital signature

Electronic signature

Certificate

Certificate authority

Signature policy

Prototipe

Public key infrastructure

Certificate practice statement

On the security of authentication protocols on the web / La sécurité des protocoles d’authentification sur leWeb

Delignat-Lavaud, Antoine

14 March 2016

Est-il possible de démontrer un théorème prouvant que l’accès aux données confidentielles d’un utilisateur d’un service Web (tel que GMail) nécessite la connaissance de son mot de passe, en supposant certaines hypothèses sur ce qu’un attaquant est incapable de faire (par exemple, casser des primitives cryptographiques ou accéder directement aux bases de données de Google), sans toutefois le restreindre au point d’exclure des attaques possibles en pratique?Il existe plusieurs facteurs spécifiques aux protocoles du Web qui rendent impossible une application directe des méthodes et outils existants issus du domaine de l’analyse des protocoles cryptographiques.Tout d’abord, les capacités d’un attaquant sur le Web vont largement au-delà de la simple manipulation des messages échangés entre le client et le serveur sur le réseau. Par exemple, il est tout à fait possible (et même fréquent en pratique) que l’utilisateur ait dans son navigateur un onglet contenant un site contrôlé par l’adversaire pendant qu’il se connecte à sa messagerie (par exemple, via une bannière publicitaire) ; cet onglet est, comme n’importe quel autre site, capable de provoquer l’envoi de requêtes arbitraires vers le serveur de GMail, bien que la politique d’isolation des pages du navigateur empêche la lecture directe de la réponse à ces requêtes. De plus, la procédure pour se connecter à GMail implique un empilement complexe de protocoles : tout d’abord, un canal chiffré, et dont le serveur est authentifié, est établi avec le protocole TLS ; puis, une session HTTP est créée en utilisant un cookie ; enfin, le navigateur exécute le code JavaScript retourné par le client, qui se charge de demander son mot de passe à l’utilisateur.Enfin, même en imaginant que la conception de ce système soit sûre, il suffit d’une erreur minime de programmation (par exemple, une simple instruction goto mal placée) pour que la sécurité de l’ensemble de l’édifice s’effondre.Le but de cette thèse est de bâtir un ensemble d’outils et de librairies permettant de programmer et d’analyser formellement de manière compositionelle la sécurité d’applicationsWeb confrontées à un modère plausible des capacités actuelles d’un attaquant sur le Web. Dans cette optique, nous étudions la conception des divers protocoles utilisés à chaque niveau de l’infrastructure du Web (TLS, X.509, HTTP, HTML, JavaScript) et évaluons leurs compositions respectives. Nous nous intéressons aussi aux implémentations existantes et en créons de nouvelles que nous prouvons correctes afin de servir de référence lors de comparaisons. Nos travaux mettent au jour un grand nombre de vulnérabilités aussi bien dans les protocoles que dans leurs implémentations, ainsi que dans les navigateurs, serveurs, et sites internet ; plusieurs de ces failles ont été reconnues d’importance critiques. Enfin, ces découvertes ont eu une influence sur les versions actuelles et futures du protocole TLS. / As ever more private user data gets stored on the Web, ensuring proper protection of this data (in particular when it transits through untrusted networks, or when it is accessed by the user from her browser) becomes increasingly critical. However, in order to formally prove that, for instance, email from GMail can only be accessed by knowing the user’s password, assuming some reasonable set of assumptions about what an attacker cannot do (e.g. he cannot break AES encryption), one must precisely understand the security properties of many complex protocols and standards (including DNS, TLS, X.509, HTTP, HTML,JavaScript), and more importantly, the composite security goals of the complete Web stack.In addition to this compositional security challenge, onemust account for the powerful additional attacker capabilities that are specific to the Web, besides the usual tampering of network messages. For instance, a user may browse a malicious pages while keeping an active GMail session in a tab; this page is allowed to trigger arbitrary, implicitly authenticated requests to GMail using JavaScript (even though the isolation policy of the browser may prevent it from reading the response). An attacker may also inject himself into honest page (for instance, as a malicious advertising script, or exploiting a data sanitization flaw), get the user to click bad links, or try to impersonate other pages.Besides the attacker, the protocols and applications are themselves a lot more complex than typical examples from the protocol analysis literature. Logging into GMail already requires multiple TLS sessions and HTTP requests between (at least) three principals, representing dozens of atomic messages. Hence, ad hoc models and hand written proofs do not scale to the complexity of Web protocols, mandating the use of advanced verification automation and modeling tools.Lastly, even assuming that the design of GMail is indeed secure against such an attacker, any single programming bug may completely undermine the security of the whole system. Therefore, in addition to modeling protocols based on their specification, it is necessary to evaluate implementations in order to achieve practical security.The goal of this thesis is to develop new tools and methods that can serve as the foundation towards an extensive compositional Web security analysis framework that could be used to implement and formally verify applications against a reasonably extensive model of attacker capabilities on the Web. To this end, we investigate the design of Web protocols at various levels (TLS, HTTP, HTML, JavaScript) and evaluate their composition using a broad range of formal methods, including symbolic protocol models, type systems, model extraction, and type-based program verification. We also analyze current implementations and develop some new verified versions to run tests against. We uncover a broad range of vulnerabilities in protocols and their implementations, and propose countermeasures that we formally verify, some of which have been implemented in browsers and by various websites. For instance, the Triple Handshake attack we discovered required a protocol fix (RFC 7627), and influenced the design of the new version 1.3 of the TLS protocol.

Sécurité du web

Authentification

Analyse de protocoles

Http

Infrastructure à clé publique

Authentification unique

Composition de protocoles

Lieur de canal

Triple poignée de main

Web security

Authentication

Protocol analysis

Http

Transport layer security

Tls

Javascript

Same-origin policy

X.509

Public key infrastructure

Single sign-on

Delegated authentication

Compositional security

Channel binding

Compound authentication

Triple handshake

004

Anonymní pohyb v síti internet / Anonymous communication on the internet

Hořejš, Jan

January 2014

The objective of this master’s thesis was to describe current capabilities of anonymous browsing over the Internet. The theoretical part focuses on three main methods of anonymization with main focus on Tor network. The master‘s thesis describes advantages and disadvantages of different solutions and possible attacks on them. In the next part is demonstrated Tor network, implementation of Hidden service and secured access to the server for clients and possible attacks against this proposal. The work also includes the results of measurements of all three anonymizers and the effects on their speed.

Elektronické zabezpečení zdravotnické dokumentace v prostředí zdravotnického IS / Security of Electronic Documentation in Medical Environment

Hauserová, Markéta

January 2012

Thesis is analyzing czech laws which are related to medical documentation. Describes the points  which are mandatory for information system, so the medical documentation can be stored electronically. Includes various algorithms for implementation of certain electronic signature and for  identification of person. This thesis deals with asymmetric cryptography, specifically RSA, DSA, and ECDSA. Describes the hash functions and their functions and their characteristics. Describes the principle of the certificate, ways of its obtaining, invalidation and their formats. Analyzes medical information system and suggests ways to create a program for signing medical records. Then based on that analysis, the program is implemented. At the conclusion of the work is discussed, if created program meets the criteria.