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This vendors libaes_siv so that we can use it to jet +sivc:aes:crypto.
198 lines
7.9 KiB
Markdown
198 lines
7.9 KiB
Markdown
# libaes_siv
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This is an [RFC5297](https://tools.ietf.org/html/rfc5297)-compliant C
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implementation of AES-SIV written by Daniel Franke on behalf of
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[Akamai Technologies](https://www.akamai.com). It is published under
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the [Apache License
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(v2.0)](https://www.apache.org/licenses/LICENSE-2.0). It uses OpenSSL
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for the underlying
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[AES](https://en.wikipedia.org/wiki/Advanced_Encryption_Standard) and
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[CMAC](https://en.wikipedia.org/wiki/One-key_MAC) implementations and
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follows a similar interface style.
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An AES_SIV implementation forked from libaes_siv has been [merged into
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the OpenSSL master branch](https://github.com/openssl/openssl/pull/3540).
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However, the two implementations are not API-compatible; see section
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"OpenSSL API Comparison" below.
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## Overview of SIV mode
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Synthetic Initialization Vector (SIV) mode is a [block cipher mode of
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operation](https://en.wikipedia.org/wiki/Block_cipher_mode_of_operation)
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for [authenticated encryption with associated
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data](https://en.wikipedia.org/wiki/Authenticated_encryption) designed
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to be maximally resistant to accidental
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[nonce](https://en.wikipedia.org/wiki/Cryptographic_nonce) reuse. If
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two messages are accidentally encrypted using the same nonce and the
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same associated data, the attacker learns nothing except whether or
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not the plaintexts of the two messages are identical to each other.
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SIV mode also permits the nonce to be intentionally omitted, resulting
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in a [deterministic encryption
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scheme](https://en.wikipedia.org/wiki/Deterministic_encryption).
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Here are a couple common situations where AES-SIV may be an
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appropriate choice of AEAD scheme:
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1. You can't count on the system doing the encrypting to reliably
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generate a unique nonce for every message. For example, the system
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may be an embedded device with no good entropy source, or may be a
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VM subject to be snapshotted and restored.
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2. You want your encryption to be deterministic so that an
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intermediating party such as a caching proxy, provided only with
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ciphertext, can perform deduplication.
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The drawback to SIV mode is that it requires two passes over its
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input. This makes it potentially clumsy for use with large messages
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since the entire message must be held in memory at one time. SIV mode
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is also a bit slower than most widely-used block cipher modes (but
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can still be quite fast — see performance numbers below).
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Be aware that with *any* encryption scheme, including SIV, repeating
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or omitting a nonce can still be [fatal to
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security](https://xkcd.com/257) if your plaintexts have low entropy,
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e.g., if each message consists only of a single bit.
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Keys for SIV mode are twice the length of the keys for the underlying
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block cipher. For example, keys for AES-128-SIV are 256 bits long,
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and keys for AES-256-SIV are 512 bits long.
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## Build instructions
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Build dependencies:
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* Any ISO C89 compiler (GCC or Clang recommended). No C99 language
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features are required, however `<stdint.h>` must be available and
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must define `uint64_t`. `char` must be 8 bits and arithmetic must be
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two's complement.
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* [CMake](https://cmake.org) >= 3.1
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* [OpenSSL](https://openssl.org) >=1.0.1 (libcrypto only). A recent
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release from the 1.0.2 branch or later is strongly recommended since
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1.0.1 was EOL'ed at the end of 2016. Furthermore, OpenSSL versions prior
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to 1.0.1n and 1.0.2b have known bugs which impact `libaes_siv` and
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will cause failures in its test suite. LibreSSL is not supported.
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* [Asciidoc](http://asciidoc.org) (only required for building man pages)
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Running benchmarks requires a POSIX.1-2001 compliant OS, including
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the `clock_gettime` system call.
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To build and install on POSIX-like platforms:
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```
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cmake . &&
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make &&
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make test &&
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sudo make install
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```
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NOTE: Out-of-source builds are allowed, but out-of-source manpage builds
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require a2x's -D option, which may provoke an apparently bogus warning from a2x.
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If you want to build on an OS X machine, install the Xcode development
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environment and the command line tools, then use either the Homebrew package
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manager or the MacPorts package manager to install cmake and OpenSSL.
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Homebrew (https://brew.sh/):
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```
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brew install cmake openssl &&
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cmake -DCMAKE_PREFIX_PATH=/usr/local/opt/openssl . &&
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make &&
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make test &&
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sudo make install
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```
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MacPorts (https://www.macports.org/):
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```
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sudo port install cmake openssl &&
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cmake . &&
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make &&
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make test &&
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sudo make install
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```
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To create a native Windows build, you will first need to build
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OpenSSL. Install Visual Studio, CMake, ActiveState Perl, and NASM, and
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ensure that `nasm.exe` is somewhere in your `%PATH%`. From a VS developer
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command prompt, unpack the OpenSSL sources and run
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```
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perl Configure VC-WIN64A
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nmake
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```
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Then to build `libaes_siv`, run
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```
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cmake -G "NMake Makefiles" -DOPENSSL_ROOT_DIR=\path\to\openssl .
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nmake
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nmake test
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```
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## Usage
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See the manual pages for API documentation, and the test vectors
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in `tests.c` for simple usage examples. You can also use the `demo` command
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line program to encrypt and decrypt data.
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## OpenSSL API Comparison
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In December 2018, OpenSSL merged an AES-SIV implementation derived
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from libaes_siv. As of February 2019 this implementation has not been
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released yet; it will appear some time post-1.1.1. However, despite
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the two implementations' common ancestry, they are not API-compatible.
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The OpenSSL team had to make an ugly-but-necessary compromise in order
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to shoehorn SIV mode into OpenSSL's EVP API, which is a streaming API
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that was never designed to support SIV's two-pass operation. When used for
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SIV operations, the EVP API is forced to return an error if you invoke
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`EVP_(En|De)crypt_Update` more than once for the same message.
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When designing libaes_siv, I rejected this behavior as an unacceptable
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breakdown of the API contract and opted to dispense with the EVP
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abstraction altogether rather than permit it to leak. libaes_siv's API
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remains stylistically similar to EVP, but is nonetheless distinct and
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avoids the above pitfall.
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## Performance
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On the author's Intel Core i7-6560U laptop, libaes_siv can process
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approximately 796 MiB of plaintext or ciphertext or 963 MiB of
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associated data per second using 256-bit keys
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(i.e., AES-128). Encrypting a zero-byte message takes approximately
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990ns. To obtain numbers for your own system, run `make bench &&
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./bench`.
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## Software assurance
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libaes_siv's test suite includes all test vectors from RFC 5297 and
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achieves 100% code coverage according to
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[gcov](https://gcc.gnu.org/onlinedocs/gcc/Gcov.html). It produces
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clean output from [Valgrind](https://valgrind.org) and from Clang's
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[undefined behavior
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sanitizer](https://clang.llvm.org/docs/UndefinedBehaviorSanitizer.html),
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and is verified using [ctgrind](https://github.com/agl/ctgrind) to run
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in constant time.
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Nonetheless, libaes_siv should at present be considered beta-quality
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code. It has not yet been tested on platforms other than x86-64 Linux
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or benefited from any significant amount of user feedback, and
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the codebase is in need of additional review by cryptographers and
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expert C programmers.
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## Bugs and pull requests
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Use the GitHub issue tracker. For reporting sensitive security issues,
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contact the author directly. (Note: I no longer use PGP. Please
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request my Signal details if necessary).
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## A note on version numbers
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libaes_siv version numbers are of the form `<major>.<minor>.<patch>`
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and follow a semantic versioning scheme. The major version number
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will be incremented with any backward-incompatible ABI change. The
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minor version number will be incremented if new functionality is
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added without impacting ABI backward-compatibility. The patch
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version number will be incremented for releases that make no
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externally-visible changes.
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As a result of this scheme, on ELF platforms, the .so version will
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be the same as the release version.
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Version numbers indicate nothing about code quality or maturity. No
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code known or suspected to be less suitable for production use than
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previous releases will ever be tagged with a version number.
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