Matthew Smith scite author profile

Abstract-We present the first known implementation of elliptic curve cryptography over F2p for sensor networks based on the 8-bit, 7.3828-MHz MICA2 mote. Through instrumentation of UC Berkeley's TinySec module, we argue that, although secret-key cryptography has been tractable in this domain for some time, there has remained a need for an efficient, secure mechanism for distribution of secret keys among nodes. Although public-key infrastructure has been thought impractical, we argue, through analysis of our own implementation for TinyOS of multiplication of points on elliptic curves, that public-key infrastructure is, in fact, viable for TinySec keys' distribution, even on the MICA2. We demonstrate that public keys can be generated within 34 seconds, and that shared secrets can be distributed among nodes in a sensor network within the same, using just over 1 kilobyte of SRAM and 34 kilobytes of ROM.

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SoK: Secure Messaging

Unger

Dechand

Bonneau³

et al. 2015

140

143

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Developers are Not the Enemy!: The Need for Usable Security APIs

Green

Smith

2016

IEEE Secur. Privacy

169

138

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Why Do Developers Get Password Storage Wrong?

et al. 2017

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Passwords are still a mainstay of various security systems, as well as the cause of many usability issues. For end-users, many of these issues have been studied extensively, highlighting problems and informing design decisions for better policies and motivating research into alternatives. However, end-users are not the only ones who have usability problems with passwords! Developers who are tasked with writing the code by which passwords are stored must do so securely. Yet history has shown that this complex task often fails due to human error with catastrophic results. While an end-user who selects a bad password can have dire consequences, the consequences of a developer who forgets to hash and salt a password database can lead to far larger problems. In this paper we present a first qualitative usability study with 20 computer science students to discover how developers deal with password storage and to inform research into aiding developers in the creation of secure password systems. * These authors contributed equally to this work.

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Matthew Smith

A public-key infrastructure for key distribution in TinyOS based on elliptic curve cryptography

SoK: Secure Messaging

Developers are Not the Enemy!: The Need for Usable Security APIs

Why Do Developers Get Password Storage Wrong?

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