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Double-authentication-preventing signatures

This software implements the double-authentication-preventing signature schemes H2[GQ], ID2[GQ], and H2[MR] from the following paper:

  • Mihir Bellare, Bertram Poettering, and Douglas Stebila. Deterring Certificate Subversion: Efficient Double-Authentication-Preventing Signatures. IACR Cryptology ePrint Archive, Report 2016/1016. October, 2016. https://eprint.iacr.org/2016/1016.

What are double-authentication-preventing signatures?

Double-authentication-preventing signatures (DAPS) were first proposed by Poettering and Stebila [ESORICS 2014], [IJIS 2015]. In DAPS, the data to be signed is split into two portions: an address and a payload. If a signer ever signs two messages with same address but different payloads, enough information is revealed to allow the signer's secret key to be recovered. This motivates the signer to not sign multiple messages with the same address.

One potential application of DAPS is in public key infrastructures (PKIs). Certificate authorities (CAs) sign certificates for domain names (or email addresses, or other things). A common concern with the web PKI today is that certificate authorities might issue fraudulent certificates, possibly to due to subversion. Suppose DAPS was used in a PKI, where the domain name is the DAPS address and the certificate body is DAPS payload. DAPS would motivate a CA to never issue multiple certificates for the same domain name: If a CA ever issues two certificates for the same domain name, then DAPS would allow the CA's private key to be discovered, effectively destroying the CA's business. This gives the CA a compelling argument to resist subversion.

This software

This software implements three new double-authentication-preventing signatures schemes (H2[GQ], ID2[GQ], and H2[MR]) as well as the original DAPS scheme of Poettering and Stebila (PS). The H2[GQ] and ID2[GQ] DAPS schemes are constructed from the GQ identification scheme; the H2[MR] DAPS scheme is based on the MR identification scheme (with minor changes). Details on the constructions can be found in the paper.

Building

The software is plain C. Compilation has been tested using gcc on Ubuntu 16.04.1 and clang on Mac OS X 10.11.6, and macOS 10.12. The software uses some routines from OpenSSL's libcrypto, so you will need to have OpenSSL installed.

To compile on Ubuntu:

sudo apt-get install make gcc libssl-dev
make

To compile on macOS using brew:

You will need to have installed the Xcode developer tools, including the command-line programs. You will also need a recent copy of OpenSSL. You can install OpenSSL using the brew package manager.

brew install openssl
make

You can also download and compile OpenSSL yourself following the instructions on the OpenSSL website. In this case, you will need to edit the Makefile to point to your copy of OpenSSL or compile with make OPENSSL_DIR=/path/to/your/openssl.

Running

To run the DAPS test harness:

./main

To do performance testing:

./performance

For most accurate results:

License

This is free and unencumbered software released into the public domain.

Anyone is free to copy, modify, publish, use, compile, sell, or distribute this software, either in source code form or as a compiled binary, for any purpose, commercial or non-commercial, and by any means.

See the file LICENSE.txt for complete information.

Acknowledgements

MB was supported in part by NSF grants CNS-1228890 and CNS-1526801, a gift from Microsoft corporation and ERC Project ERCC (FP7/615074). BP was supported by ERC Project ERCC (FP7/615074). DS was supported in part by Australian Research Council (ARC) Discovery Project grant DP130104304 and Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery grant RGPIN-2016-05146.