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Published byRuth Bates Modified over 9 years ago
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Leveraging UICC with Open Mobile API for Secure Applications and Services
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Overview of the Master Thesis This master thesis is a part of the project “SmartOpenID”, which is carried out by InterDigital, Novalyst and Morpho e-Document Within the thesis, different technologies, which intend to extend the UICC’s usage and bring the value-added services, will be discussed Then the Open Mobile API, which fills the gap between the UICC and the outside world, will be introduced As an use case, the SmartOpenID protocol will be introduced and analyzed The usage of Open Mobile API with UICC will be shown. As a result, the services, which an UICC can provide, will be introduced and discussed An implementation of the SmartOpenID protocol on an Android device with UICC A test and analyze of the implementation Discussion and prospect of the other use cases with Open Mobile API and UICC
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UICC UICC is a smart card used in mobile terminals in GSM and UMTS networks [1] It provides tthe authentication with the networks ssecure storage ccrypto algorithms …… Java Card as UICC can provide [2] HHash functions: MD5, SHA-1, SHA-256 … SSignature functions: HMAC … PPublic-key cryptography: RSA … SSymmetric-key cryptography: AES, DES … ……
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Toolkit Smart Card Web Server Generic Bootstrapping Architecture (GBA) Open Mobile API [3]
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Open Mobile API Open Mobile API is established by SIMalliance as an open API between the Secure Element and the applications [4] Crypto Authentication Secure Storage PKCS#15 …
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Open Mobile API 3 Layers [5] Transport Layer: using APDUs for accessing a Secure Element Service Layer: provide a more abstract interface for functions on SE Application Layer: represents the various applications using Open Mobile API Figure 1: Architecture overview
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Use cases [4] NFC services Payment services Ticketing services Loyalty services (Kundenbindungsmaßnahmen) ID services
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OpenID Provider Relying Party User Device Relying Parties Submit OpenID ID Association User authentication Log-On OpenID Overview
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OpenID Weakness [6] Phishing An “Identity System” without Trust: no authority can promise OpenID rzhou.myopenid.com is Ran Zhou. No single-sign-on Communication Overhead: lots of HTTP requests
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OpenID Provider Relying Party User Device with Local OP Relying Parties Association Local authentication Log-On Smart OpenID Overview Trust
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Phishing Sensitive data remains on device An “identity system” without Trust: no authority can promise OpenID rzhou.myopenid.com is Ran Zhou. Trust between user and MNO (contract) No single-sign-on Local OP interface provide SSO Communication Overhead: lots of HTTP requests Significantly reduced authentication traffic SmartOpenID
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Time plan 01.11.2011 - 15.01.2012: Investigate and design 16.01.2012 - 29.02.2012: Implement of the first demo (with part of the algorithms and functions) 01.03.2012 - 31.03.2012: Implement of the second demo (complete version of the first one) 01.04.2012 - 30.04.2012: First version of the thesis 05.05.2012 - 15.05.2012: Second version of the thesis after first review 20.05.2012 - 30.05.2012: Final version of the thesis after second review 06.2012: Final presentation and Submission
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Thanks! Question?
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References [1] Rankl, W. (2oo8), Handbuch der Chipkarten, Carl Hanser Verlag München. [2] Sun Microsystems, I. (2006), 'Application Programming Interface Java Card™ Platform, Version 2.2.2'. [3] Wikipedia, t. f. e. (2012), 'Generic Bootstrapping Architecture'. [4] SIMalliance (2011), 'SIMalliance Open Mobile API An Introduction'. [5] SIMalliance (2011), 'Open Mobile API specification V2.02', SIMalliance. [6] van Delft, B. (2010), 'A Security Analysis of OpenID', IFIP Advances in Information and Communication Technology 343/2010, 73-84.
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A browser which is able to communicate via HTTP with: the service/RP, and the local OP Local OP, which provides a web server interface for the browser and acts like a network based OpenID identity provider SIM communication API, which provides an API for the local OP to communicate with the application on the smart card: Open Mobile API Application on the UICC, which performs all the necessary crypto operations for the local OP A Long Term Secret shared between network OP and local OP, which is used to establish the Trust SmartOpenID Architecture Overview
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The UICC application can handle local authentication by means of requesting a user Pin code to unlock the local OP functionality on the UICC The Local OP app receives an HTTP request from the browser containing all the message fields which have to be signed and also including the association handle The UICC application derives the signature key with the Long Term Secret and the association handle using key derivation function: PBKDF2 The UICC signs the message with the derived signature key using HMAC function: HMAC-SHA1 or HMAC-SHA256 SmartOpenID Architecture Overview
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Toolkit SIM Application Toolkit is a standard of GSM which can be used by the MNO to provide value-added services It is a set of commands which define how the card should interact with the outside world But the update of toolkit application and menu stored in the UICC is difficult and there is no support for multimedia
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Smart Card Web Server The SCWS is based on a standard HTTP 1.1 web server embedded in smart card, allowing communication with any HTTP client – particularly the handset browser It will benefit from all the latest improvement of particular client (JavaScript, XMLHttpRequest) and support s browser plug-ins such as Adobe Flash to bring Apps’ UI to the next level
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Generic Bootstrapping Architecture (GBA) GBA extends the security infrastructure and establishes key agreement It uses the 3GPP Authentication and Key Agreement (AKA) mechanism, enables authenticated User Equipment (UE) access to the Network Application Function (NAF) services. But it requires to implement a GBA module to communicate with the browser, the NAF and the UICC
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