commit | 18aa2c8335ba6428b50501af88d283cec6e19674 | [log] [tgz] |
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author | android-build-team Robot <android-build-team-robot@google.com> | Thu Mar 28 03:11:53 2019 +0000 |
committer | android-build-team Robot <android-build-team-robot@google.com> | Thu Mar 28 03:11:53 2019 +0000 |
tree | 5acf266863308ea4d4c6e226cfd322730ac74e4c | |
parent | b3763705743c43b41e64a8d642243e1f418fbd53 [diff] | |
parent | ea68d03721fb76a80520cd6731f73f26a534c162 [diff] |
Snap for 5413448 from ea68d03721fb76a80520cd6731f73f26a534c162 to qt-release Change-Id: Iee1ada2159f50a0d4b4bd8e5498ca18cb535ccd5
The Intel(R) Enhanced Privacy ID Software Development Kit
Intel(R) EPID SDK enables adding Intel(R) EPID support to applications and platforms.
Intel(R) EPID is a cryptographic protocol which enables the remote authentication of a trusted platform whilst preserving the user's privacy.
For a given public key there are many (e.g., millions) of private keys. The key holders form a group.
Any key holder may sign against the one public key.
No one can tell which private key signed the data. This is the privacy property.
You can use Intel(R) EPID as a foundational building block for a multitude of security solutions.
See CHANGELOG.md.
See doc/index.html to browse the html documentation.
See LICENSE.txt.
The source code used for math primitives in the Intel(R) EPID SDK is a subset of the Intel(R) IPP Cryptography library (version 2017 Update 2) written in pure C and not optimized for performance. For higher performance, you can use the commercial version of the IPP Cryptography library, which is available at https://software.intel.com/articles/download-ipp-cryptography-libraries.
More information on the optimized versions of Intel(R) IPP Cryptography library, including mitigations for a potential side-channel issue are available at https://security-center.intel.com/advisory.aspx?intelid=INTEL-SA-00060&languageid=en-fr.