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build: updates libaes_siv, builds from upstream

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This commit is contained in:
Joe Bryan 2021-08-03 16:46:40 -04:00
parent 042b115b76
commit 44c7eedbd2
13 changed files with 67 additions and 1112 deletions
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2
default.nix
View File

@ -95,7 +95,7 @@ let
ge-additions = callPackage ./nix/pkgs/ge-additions { };
libaes_siv = callPackage ./nix/pkgs/libaes_siv { };
libaes_siv = callPackage ./nix/pkgs/libaes_siv { inherit (pkgsNative) cmake; };
libscrypt = callPackage ./nix/pkgs/libscrypt { };

34
nix/pkgs/libaes_siv/cmakefiles_static.patch Normal file
View File

@ -0,0 +1,34 @@
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -5,6 +5,8 @@ if("${CMAKE_BUILD_TYPE}" STREQUAL "")
set(CMAKE_BUILD_TYPE Release)
endif("${CMAKE_BUILD_TYPE}" STREQUAL "")
+option(BUILD_SHARED_LIBS "Build shared libraries" ON)
+
include(GNUInstallDirs)
# Warning: don't use the UB sanitizer in production builds. It can introduce timing side-channels
@@ -31,10 +33,12 @@ endif(NOT DISABLE_DOCS)
configure_file(config.h.in config.h)
include_directories(${CMAKE_CURRENT_BINARY_DIR})
+if(BUILD_SHARED_LIBS)
add_library(aes_siv SHARED aes_siv.c)
target_include_directories(aes_siv PUBLIC ${OPENSSL_INCLUDE_DIR})
target_link_libraries(aes_siv ${OPENSSL_CRYPTO_LIBRARY})
set_target_properties(aes_siv PROPERTIES VERSION "1.0.1" SOVERSION 1)
+endif()
add_library(aes_siv_static STATIC aes_siv.c)
target_include_directories(aes_siv_static PUBLIC ${OPENSSL_INCLUDE_DIR})
@@ -63,7 +67,9 @@ endif(ENABLE_SANITIZER)
add_executable(bench EXCLUDE_FROM_ALL bench.c)
target_link_libraries(bench aes_siv_static)
+if(BUILD_SHARED_LIBS)
install(TARGETS aes_siv LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR})
+endif()
install(TARGETS aes_siv_static ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR})
install(FILES aes_siv.h DESTINATION ${CMAKE_INSTALL_INCLUDEDIR})

11
nix/pkgs/libaes_siv/default.nix
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@ -1,12 +1,17 @@
{ lib, stdenv, openssl, enableParallelBuilding ? true }:
{ stdenv, sources, cmake, openssl, enableParallelBuilding ? true }:
stdenv.mkDerivation {
name = "libaes_siv";
src = lib.cleanSource ../../../pkg/libaes_siv;
version = sources.libaes_siv.rev;
src = sources.libaes_siv;
patches = [ ./cmakefiles_static.patch ];
nativeBuildInputs = [ cmake ];
buildInputs = [ openssl ];
installFlags = [ "PREFIX=$(out)" ];
cmakeFlags = [
"-DBUILD_SHARED_LIBS=OFF"
];
inherit enableParallelBuilding;
}

9
nix/sources-pmnsh.json
View File

@ -77,14 +77,5 @@
"pmnsh": {
"make": "CFLAGS=-I../ed25519"
}
},
"libaes_siv": {
"pmnsh": {
"compat": {
"m1brew": {
"make": "CFLAGS=$(pkg-config --cflags openssl)"
}
}
}
}
}

24
nix/sources.json
View File

@ -77,6 +77,30 @@
"url": "https://github.com/input-output-hk/haskell.nix/archive/bbb34dcdf7b90d478002f91713531f418ddf1b53.tar.gz",
"url_template": "https://github.com/<owner>/<repo>/archive/<rev>.tar.gz"
},
"libaes_siv": {
"branch": "master",
"description": null,
"homepage": null,
"pmnsh": {
"compat": {
"m1brew": {
"prepare": "cmake .",
"make": "install CFLAGS=$(pkg-config --cflags openssl)"
},
"mingw": {
"prepare": "cmake -G\"MSYS Makefiles\" -DDISABLE_DOCS:BOOL=ON .",
"make": "install"
}
}
},
"owner":"dfoxfranke",
"repo": "libaes_siv",
"rev": "9681279cfaa6e6399bb7ca3afbbc27fc2e19df4b",
"sha256": "1g4wy0m5wpqx7z6nillppkh5zki9fkx9rdw149qcxh7mc5vlszzi",
"type": "tarball",
"url": "https://github.com/dfoxfranke/libaes_siv/archive/9681279cfaa6e6399bb7ca3afbbc27fc2e19df4b.tar.gz",
"url_template": "https://github.com/<owner>/<repo>/archive/<rev>.tar.gz"
},
"libscrypt": {
"branch": "master",
"description": null,

202
pkg/libaes_siv/COPYING
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@ -1,202 +0,0 @@
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20
pkg/libaes_siv/Makefile
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@ -1,20 +0,0 @@
CC ?= cc
AR ?= ar
PREFIX ?= ./out
################################################################################
.PHONY: all test install clean
all: aes_siv.c aes_siv.h
$(CC) $(CFLAGS) -Wall -Wextra -Wstrict-prototypes -Wconversion -O3 -fomit-frame-pointer -funroll-loops -ftree-vectorize -DNDEBUG -c aes_siv.c
$(AR) rcs libaes_siv.a aes_siv.o
install: all
@mkdir -p $(PREFIX)/lib/
@mkdir -p $(PREFIX)/include/
cp libaes_siv.a $(PREFIX)/lib/
cp aes_siv.h $(PREFIX)/include/
clean:
rm -rf ./out

197
pkg/libaes_siv/README.md
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@ -1,197 +0,0 @@
# libaes_siv
This is an [RFC5297](https://tools.ietf.org/html/rfc5297)-compliant C
implementation of AES-SIV written by Daniel Franke on behalf of
[Akamai Technologies](https://www.akamai.com). It is published under
the [Apache License
(v2.0)](https://www.apache.org/licenses/LICENSE-2.0). It uses OpenSSL
for the underlying
[AES](https://en.wikipedia.org/wiki/Advanced_Encryption_Standard) and
[CMAC](https://en.wikipedia.org/wiki/One-key_MAC) implementations and
follows a similar interface style.
An AES_SIV implementation forked from libaes_siv has been [merged into
the OpenSSL master branch](https://github.com/openssl/openssl/pull/3540).
However, the two implementations are not API-compatible; see section
"OpenSSL API Comparison" below.
## Overview of SIV mode
Synthetic Initialization Vector (SIV) mode is a [block cipher mode of
operation](https://en.wikipedia.org/wiki/Block_cipher_mode_of_operation)
for [authenticated encryption with associated
data](https://en.wikipedia.org/wiki/Authenticated_encryption) designed
to be maximally resistant to accidental
[nonce](https://en.wikipedia.org/wiki/Cryptographic_nonce) reuse. If
two messages are accidentally encrypted using the same nonce and the
same associated data, the attacker learns nothing except whether or
not the plaintexts of the two messages are identical to each other.
SIV mode also permits the nonce to be intentionally omitted, resulting
in a [deterministic encryption
scheme](https://en.wikipedia.org/wiki/Deterministic_encryption).
Here are a couple common situations where AES-SIV may be an
appropriate choice of AEAD scheme:
1. You can't count on the system doing the encrypting to reliably
generate a unique nonce for every message. For example, the system
may be an embedded device with no good entropy source, or may be a
VM subject to be snapshotted and restored.
2. You want your encryption to be deterministic so that an
intermediating party such as a caching proxy, provided only with
ciphertext, can perform deduplication.
The drawback to SIV mode is that it requires two passes over its
input. This makes it potentially clumsy for use with large messages
since the entire message must be held in memory at one time. SIV mode
is also a bit slower than most widely-used block cipher modes (but
can still be quite fast — see performance numbers below).
Be aware that with *any* encryption scheme, including SIV, repeating
or omitting a nonce can still be [fatal to
security](https://xkcd.com/257) if your plaintexts have low entropy,
e.g., if each message consists only of a single bit.
Keys for SIV mode are twice the length of the keys for the underlying
block cipher. For example, keys for AES-128-SIV are 256 bits long,
and keys for AES-256-SIV are 512 bits long.
## Build instructions
Build dependencies:
* Any ISO C89 compiler (GCC or Clang recommended). No C99 language
features are required, however `<stdint.h>` must be available and
must define `uint64_t`. `char` must be 8 bits and arithmetic must be
two's complement.
* [CMake](https://cmake.org) >= 3.1
* [OpenSSL](https://openssl.org) >=1.0.1 (libcrypto only). A recent
release from the 1.0.2 branch or later is strongly recommended since
1.0.1 was EOL'ed at the end of 2016. Furthermore, OpenSSL versions prior
to 1.0.1n and 1.0.2b have known bugs which impact `libaes_siv` and
will cause failures in its test suite. LibreSSL is not supported.
* [Asciidoc](http://asciidoc.org) (only required for building man pages)
Running benchmarks requires a POSIX.1-2001 compliant OS, including
the `clock_gettime` system call.
To build and install on POSIX-like platforms:
```
cmake . &&
make &&
make test &&
sudo make install
```
NOTE: Out-of-source builds are allowed, but out-of-source manpage builds
require a2x's -D option, which may provoke an apparently bogus warning from a2x.
If you want to build on an OS X machine, install the Xcode development
environment and the command line tools, then use either the Homebrew package
manager or the MacPorts package manager to install cmake and OpenSSL.
Homebrew (https://brew.sh/):
```
brew install cmake openssl &&
cmake -DCMAKE_PREFIX_PATH=/usr/local/opt/openssl . &&
make &&
make test &&
sudo make install
```
MacPorts (https://www.macports.org/):
```
sudo port install cmake openssl &&
cmake . &&
make &&
make test &&
sudo make install
```
To create a native Windows build, you will first need to build
OpenSSL. Install Visual Studio, CMake, ActiveState Perl, and NASM, and
ensure that `nasm.exe` is somewhere in your `%PATH%`. From a VS developer
command prompt, unpack the OpenSSL sources and run
```
perl Configure VC-WIN64A
nmake
```
Then to build `libaes_siv`, run
```
cmake -G "NMake Makefiles" -DOPENSSL_ROOT_DIR=\path\to\openssl .
nmake
nmake test
```
## Usage
See the manual pages for API documentation, and the test vectors
in `tests.c` for simple usage examples. You can also use the `demo` command
line program to encrypt and decrypt data.
## OpenSSL API Comparison
In December 2018, OpenSSL merged an AES-SIV implementation derived
from libaes_siv. As of February 2019 this implementation has not been
released yet; it will appear some time post-1.1.1. However, despite
the two implementations' common ancestry, they are not API-compatible.
The OpenSSL team had to make an ugly-but-necessary compromise in order
to shoehorn SIV mode into OpenSSL's EVP API, which is a streaming API
that was never designed to support SIV's two-pass operation. When used for
SIV operations, the EVP API is forced to return an error if you invoke
`EVP_(En|De)crypt_Update` more than once for the same message.
When designing libaes_siv, I rejected this behavior as an unacceptable
breakdown of the API contract and opted to dispense with the EVP
abstraction altogether rather than permit it to leak. libaes_siv's API
remains stylistically similar to EVP, but is nonetheless distinct and
avoids the above pitfall.
## Performance
On the author's Intel Core i7-6560U laptop, libaes_siv can process
approximately 796 MiB of plaintext or ciphertext or 963 MiB of
associated data per second using 256-bit keys
(i.e., AES-128). Encrypting a zero-byte message takes approximately
990ns. To obtain numbers for your own system, run `make bench &&
./bench`.
## Software assurance
libaes_siv's test suite includes all test vectors from RFC 5297 and
achieves 100% code coverage according to
[gcov](https://gcc.gnu.org/onlinedocs/gcc/Gcov.html). It produces
clean output from [Valgrind](https://valgrind.org) and from Clang's
[undefined behavior
sanitizer](https://clang.llvm.org/docs/UndefinedBehaviorSanitizer.html),
and is verified using [ctgrind](https://github.com/agl/ctgrind) to run
in constant time.
Nonetheless, libaes_siv should at present be considered beta-quality
code. It has not yet been tested on platforms other than x86-64 Linux
or benefited from any significant amount of user feedback, and
the codebase is in need of additional review by cryptographers and
expert C programmers.
## Bugs and pull requests
Use the GitHub issue tracker. For reporting sensitive security issues,
contact the author directly. (Note: I no longer use PGP. Please
request my Signal details if necessary).
## A note on version numbers
libaes_siv version numbers are of the form `<major>.<minor>.<patch>`
and follow a semantic versioning scheme. The major version number
will be incremented with any backward-incompatible ABI change. The
minor version number will be incremented if new functionality is
added without impacting ABI backward-compatibility. The patch
version number will be incremented for releases that make no
externally-visible changes.
As a result of this scheme, on ELF platforms, the .so version will
be the same as the release version.
Version numbers indicate nothing about code quality or maturity. No
code known or suspected to be less suitable for production use than
previous releases will ever be tagged with a version number.

2
pkg/libaes_siv/README.urbit.md
View File

@ -1,2 +0,0 @@
Vendoring of git@github.com:dfoxfranke/libaes_siv.git.
Code from commit 509550e92a416172b9b8255e275f3a04d5fd4545

594
pkg/libaes_siv/aes_siv.c
View File

@ -1,594 +0,0 @@
/* Copyright (c) 2017-2019 Akamai Technologies, Inc.
* SPDX-License-Identifier: Apache-2.0
*/
#define _POSIX_C_SOURCE 200112L
#define _ISOC99_SOURCE 1
#include "config.h"
#include "aes_siv.h"
#include <assert.h>
#include <limits.h>
#include <stddef.h>
#include <stdint.h>
#ifdef ENABLE_DEBUG_OUTPUT
#include <stdio.h>
#endif
#ifdef _MSC_VER
/* For _byteswap_uint64 */
#include <stdlib.h>
#endif
#include <string.h>
#include <openssl/cmac.h>
#include <openssl/crypto.h>
#include <openssl/evp.h>
#ifdef ENABLE_CTGRIND
#include <ctgrind.h>
#endif
#if CHAR_BIT != 8
#error "libaes_siv requires an 8-bit char type"
#endif
#if -1 != ~0
#error "libaes_siv requires a two's-complement architecture"
#endif
#if defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901
#undef inline
#elif defined(__GNUC__) || defined(__clang__)
#define inline __inline__
#elif defined(_MSC_VER)
#define inline __inline
#else
#define inline
#endif
#if defined(__GNUC__) || defined(__clang__)
#define LIKELY(cond) __builtin_expect(cond, 1)
#define UNLIKELY(cond) __builtin_expect(cond, 0)
#else
#define LIKELY(cond) cond
#define UNLIKELY(cond) cond
#endif
#ifndef ENABLE_CTGRIND
static inline void ct_poison(const void *data, size_t len) {
(void)data;
(void)len;
}
static inline void ct_unpoison(const void *data, size_t len) {
(void)data;
(void)len;
}
#endif
static void debug(const char *label, const unsigned char *hex, size_t len) {
/* ENABLE_CTGRIND has to override ENABLE_DEBUG_OUTPUT since sensitive data
gets printed.
*/
#if defined(ENABLE_DEBUG_OUTPUT) && !defined(ENABLE_CTGRIND)
size_t i;
printf("%16s: ", label);
for (i = 0; i < len; i++) {
if (i > 0 && i % 16 == 0) {
printf("\n ");
}
printf("%.2x", (int)hex[i]);
if (i > 0 && i % 4 == 3) {
printf(" ");
}
}
printf("\n");
#else
(void)label;
(void)hex;
(void)len;
#endif
}
typedef union block_un {
uint64_t word[2];
unsigned char byte[16];
} block;
const union {
uint64_t word;
char byte[8];
} endian = {0x0102030405060708};
#define I_AM_BIG_ENDIAN (endian.byte[0] == 1 && \
endian.byte[1] == 2 && \
endian.byte[2] == 3 && \
endian.byte[3] == 4 && \
endian.byte[4] == 5 && \
endian.byte[5] == 6 && \
endian.byte[6] == 7 && \
endian.byte[7] == 8)
#define I_AM_LITTLE_ENDIAN (endian.byte[0] == 8 && \
endian.byte[1] == 7 && \
endian.byte[2] == 6 && \
endian.byte[3] == 5 && \
endian.byte[4] == 4 && \
endian.byte[5] == 3 && \
endian.byte[6] == 2 && \
endian.byte[7] == 1)
#if defined(__GNUC__) || defined(__clang__)
static inline uint64_t bswap64(uint64_t x) { return __builtin_bswap64(x); }
#elif defined(_MSC_VER)
static inline uint64_t bswap64(uint64_t x) { return _byteswap_uint64(x); }
#else
static inline uint32_t rotl(uint32_t x) { return (x << 8) | (x >> 24); }
static inline uint32_t rotr(uint32_t x) { return (x >> 8) | (x << 24); }
static inline uint64_t bswap64(uint64_t x) {
uint32_t high = (uint32_t)(x >> 32);
uint32_t low = (uint32_t)x;
high = (rotl(high) & 0x00ff00ff) | (rotr(high) & 0xff00ff00);
low = (rotl(low) & 0x00ff00ff) | (rotr(low) & 0xff00ff00);
return ((uint64_t)low) << 32 | (uint64_t)high;
}
#endif
static inline uint64_t getword(block const *block, size_t i) {
#ifndef ENABLE_DEBUG_WEIRD_ENDIAN
if (I_AM_BIG_ENDIAN) {
return block->word[i];
} else if (I_AM_LITTLE_ENDIAN) {
return bswap64(block->word[i]);
} else {
#endif
i <<= 3;
return ((uint64_t)block->byte[i + 7]) |
((uint64_t)block->byte[i + 6] << 8) |
((uint64_t)block->byte[i + 5] << 16) |
((uint64_t)block->byte[i + 4] << 24) |
((uint64_t)block->byte[i + 3] << 32) |
((uint64_t)block->byte[i + 2] << 40) |
((uint64_t)block->byte[i + 1] << 48) |
((uint64_t)block->byte[i] << 56);
#ifndef ENABLE_DEBUG_WEIRD_ENDIAN
}
#endif
}
static inline void putword(block *block, size_t i, uint64_t x) {
#ifndef ENABLE_DEBUG_WEIRD_ENDIAN
if (I_AM_BIG_ENDIAN) {
block->word[i] = x;
} else if (I_AM_LITTLE_ENDIAN) {
block->word[i] = bswap64(x);
} else {
#endif
i <<= 3;
block->byte[i] = (unsigned char)(x >> 56);
block->byte[i + 1] = (unsigned char)((x >> 48) & 0xff);
block->byte[i + 2] = (unsigned char)((x >> 40) & 0xff);
block->byte[i + 3] = (unsigned char)((x >> 32) & 0xff);
block->byte[i + 4] = (unsigned char)((x >> 24) & 0xff);
block->byte[i + 5] = (unsigned char)((x >> 16) & 0xff);
block->byte[i + 6] = (unsigned char)((x >> 8) & 0xff);
block->byte[i + 7] = (unsigned char)(x & 0xff);
#ifndef ENABLE_DEBUG_WEIRD_ENDIAN
}
#endif
}
static inline void xorblock(block *x, block const *y) {
x->word[0] ^= y->word[0];
x->word[1] ^= y->word[1];
}
/* Doubles `block`, which is 16 bytes representing an element
of GF(2**128) modulo the irreducible polynomial
x**128 + x**7 + x**2 + x + 1. */
static inline void dbl(block *block) {
uint64_t high = getword(block, 0);
uint64_t low = getword(block, 1);
uint64_t high_carry = high & (((uint64_t)1) << 63);
uint64_t low_carry = low & (((uint64_t)1) << 63);
/* Assumes two's-complement arithmetic */
int64_t low_mask = -((int64_t)(high_carry >> 63)) & 0x87;
uint64_t high_mask = low_carry >> 63;
high = (high << 1) | high_mask;
low = (low << 1) ^ (uint64_t)low_mask;
putword(block, 0, high);
putword(block, 1, low);
}
struct AES_SIV_CTX_st {
/* d stores intermediate results of S2V; it corresponds to D from the
pseudocode in section 2.4 of RFC 5297. */
block d;
EVP_CIPHER_CTX *cipher_ctx;
/* SIV_AES_Init() sets up cmac_ctx_init. cmac_ctx is a scratchpad used
by SIV_AES_AssociateData() and SIV_AES_(En|De)cryptFinal. */
CMAC_CTX *cmac_ctx_init, *cmac_ctx;
};
void AES_SIV_CTX_cleanup(AES_SIV_CTX *ctx) {
#if OPENSSL_VERSION_NUMBER >= 0x10100000L
EVP_CIPHER_CTX_reset(ctx->cipher_ctx);
#else
EVP_CIPHER_CTX_cleanup(ctx->cipher_ctx);
#endif
#if OPENSSL_VERSION_NUMBER >= 0x10100000L && OPENSSL_VERSION_NUMBER <= 0x10100060L
/* Workaround for an OpenSSL bug that causes a double free
if you call CMAC_CTX_cleanup() before CMAC_CTX_free().
https://github.com/openssl/openssl/pull/2798
*/
CMAC_CTX_free(ctx->cmac_ctx_init);
ctx->cmac_ctx_init = CMAC_CTX_new();
CMAC_CTX_free(ctx->cmac_ctx);
ctx->cmac_ctx = CMAC_CTX_new();
#else
CMAC_CTX_cleanup(ctx->cmac_ctx_init);
CMAC_CTX_cleanup(ctx->cmac_ctx);
#endif
OPENSSL_cleanse(&ctx->d, sizeof ctx->d);
}
void AES_SIV_CTX_free(AES_SIV_CTX *ctx) {
if (ctx) {
EVP_CIPHER_CTX_free(ctx->cipher_ctx);
/* Prior to OpenSSL 1.0.2b, CMAC_CTX_free() crashes on NULL */
if (LIKELY(ctx->cmac_ctx_init != NULL)) {
CMAC_CTX_free(ctx->cmac_ctx_init);
}
if (LIKELY(ctx->cmac_ctx != NULL)) {
CMAC_CTX_free(ctx->cmac_ctx);
}
OPENSSL_cleanse(&ctx->d, sizeof ctx->d);
OPENSSL_free(ctx);
}
}
AES_SIV_CTX *AES_SIV_CTX_new(void) {
AES_SIV_CTX *ctx = OPENSSL_malloc(sizeof(struct AES_SIV_CTX_st));
if (UNLIKELY(ctx == NULL)) {
return NULL;
}
ctx->cipher_ctx = EVP_CIPHER_CTX_new();
ctx->cmac_ctx_init = CMAC_CTX_new();
ctx->cmac_ctx = CMAC_CTX_new();
if (UNLIKELY(ctx->cipher_ctx == NULL ||
ctx->cmac_ctx_init == NULL ||
ctx->cmac_ctx == NULL)) {
AES_SIV_CTX_free(ctx);
return NULL;
}
return ctx;
}
int AES_SIV_CTX_copy(AES_SIV_CTX *dst, AES_SIV_CTX const *src) {
memcpy(&dst->d, &src->d, sizeof src->d);
if(UNLIKELY(EVP_CIPHER_CTX_copy(dst->cipher_ctx, src->cipher_ctx)
!= 1)) {
return 0;
}
if (UNLIKELY(CMAC_CTX_copy(dst->cmac_ctx_init, src->cmac_ctx_init)
!= 1)) {
return 0;
}
/* Not necessary to copy cmac_ctx since it's just temporary
* storage */
return 1;
}
int AES_SIV_Init(AES_SIV_CTX *ctx, unsigned char const *key, size_t key_len) {
static const unsigned char zero[] = {0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0};
size_t out_len;
int ret = 0;
ct_poison(key, key_len);
switch (key_len) {
case 32:
if (UNLIKELY(CMAC_Init(ctx->cmac_ctx_init, key, 16,
EVP_aes_128_cbc(), NULL) != 1)) {
goto done;
}
if (UNLIKELY(EVP_EncryptInit_ex(ctx->cipher_ctx,
EVP_aes_128_ctr(),
NULL, key + 16, NULL) != 1)) {
goto done;
}
break;
case 48:
if (UNLIKELY(CMAC_Init(ctx->cmac_ctx_init, key, 24,
EVP_aes_192_cbc(), NULL) != 1)) {
goto done;
}
if (UNLIKELY(EVP_EncryptInit_ex(ctx->cipher_ctx,
EVP_aes_192_ctr(),
NULL, key + 24, NULL) != 1)) {
goto done;
}
break;
case 64:
if (UNLIKELY(CMAC_Init(ctx->cmac_ctx_init, key, 32,
EVP_aes_256_cbc(), NULL) != 1)) {
goto done;
}
if (UNLIKELY(EVP_EncryptInit_ex(ctx->cipher_ctx,
EVP_aes_256_ctr(),
NULL, key + 32, NULL) != 1)) {
goto done;
}
break;
default:
goto done;
}
if (UNLIKELY(CMAC_CTX_copy(ctx->cmac_ctx, ctx->cmac_ctx_init) != 1)) {
goto done;
}
if (UNLIKELY(CMAC_Update(ctx->cmac_ctx, zero, sizeof zero) != 1)) {
goto done;
}
out_len = sizeof ctx->d;
if (UNLIKELY(CMAC_Final(ctx->cmac_ctx, ctx->d.byte, &out_len) != 1)) {
goto done;
}
debug("CMAC(zero)", ctx->d.byte, out_len);
ret = 1;
done:
ct_unpoison(key, key_len);
return ret;
}
int AES_SIV_AssociateData(AES_SIV_CTX *ctx, unsigned char const *data,
size_t len) {
block cmac_out;
size_t out_len = sizeof cmac_out;
int ret = 0;
ct_poison(data, len);
dbl(&ctx->d);
debug("double()", ctx->d.byte, 16);
if (UNLIKELY(CMAC_CTX_copy(ctx->cmac_ctx, ctx->cmac_ctx_init) != 1)) {
goto done;
}
if (UNLIKELY(CMAC_Update(ctx->cmac_ctx, data, len) != 1)) {
goto done;
}
if (UNLIKELY(CMAC_Final(ctx->cmac_ctx, cmac_out.byte, &out_len) != 1)) {
goto done;
}
assert(out_len == 16);
debug("CMAC(ad)", cmac_out.byte, 16);
xorblock(&ctx->d, &cmac_out);
debug("xor", ctx->d.byte, 16);
ret = 1;
done:
ct_unpoison(data, len);
return ret;
}
static inline int do_s2v_p(AES_SIV_CTX *ctx, block *out,
unsigned char const* in, size_t len) {
block t;
size_t out_len = sizeof out->byte;
if (UNLIKELY(CMAC_CTX_copy(ctx->cmac_ctx, ctx->cmac_ctx_init) != 1)) {
return 0;
}
if(len >= 16) {
if(UNLIKELY(CMAC_Update(ctx->cmac_ctx, in, len - 16) != 1)) {
return 0;
}
debug("xorend part 1", in, len - 16);
memcpy(&t, in + (len-16), 16);
xorblock(&t, &ctx->d);
debug("xorend part 2", t.byte, 16);
if(UNLIKELY(CMAC_Update(ctx->cmac_ctx, t.byte, 16) != 1)) {
return 0;
}
} else {
size_t i;
memcpy(&t, in, len);
t.byte[len] = 0x80;
for(i = len + 1; i < 16; i++) {
t.byte[i] = 0;
}
debug("pad", t.byte, 16);
dbl(&ctx->d);
xorblock(&t, &ctx->d);
debug("xor", t.byte, 16);
if(UNLIKELY(CMAC_Update(ctx->cmac_ctx, t.byte, 16) != 1)) {
return 0;
}
}
if(UNLIKELY(CMAC_Final(ctx->cmac_ctx, out->byte, &out_len) != 1)) {
return 0;
}
assert(out_len == 16);
debug("CMAC(final)", out->byte, 16);
return 1;
}
static inline int do_encrypt(EVP_CIPHER_CTX *ctx, unsigned char *out,
unsigned char const *in, size_t len, block *icv) {
#ifdef ENABLE_DEBUG_TINY_CHUNK_SIZE
const int chunk_size = 7;
#else
const int chunk_size = 1 << 30;
#endif
size_t len_remaining = len;
int out_len;
int ret;
if(UNLIKELY(EVP_EncryptInit_ex(ctx, NULL, NULL, NULL, icv->byte)
!= 1)) {
return 0;
}
while(UNLIKELY(len_remaining > (size_t)chunk_size)) {
out_len = chunk_size;
if(UNLIKELY(EVP_EncryptUpdate(ctx, out, &out_len, in, out_len)
!= 1)) {
return 0;
}
assert(out_len == chunk_size);
out += out_len;
in += out_len;
len_remaining -= (size_t)out_len;
}
out_len = (int)len_remaining;
ret = EVP_EncryptUpdate(ctx, out, &out_len, in, out_len);
assert(!ret || out_len == (int)len_remaining);
return ret;
}
int AES_SIV_EncryptFinal(AES_SIV_CTX *ctx, unsigned char *v_out,
unsigned char *c_out, unsigned char const *plaintext,
size_t len) {
block q;
int ret = 0;
ct_poison(plaintext, len);
if(UNLIKELY(do_s2v_p(ctx, &q, plaintext, len) != 1)) {
goto done;
}
ct_unpoison(&q, sizeof q);
memcpy(v_out, &q, 16);
q.byte[8] &= 0x7f;
q.byte[12] &= 0x7f;
if(UNLIKELY(do_encrypt(ctx->cipher_ctx, c_out, plaintext, len, &q)
!= 1)) {
goto done;
}
ret = 1;
debug("ciphertext", c_out, len);
done:
ct_unpoison(plaintext, len);
ct_unpoison(c_out, len);
ct_unpoison(v_out, 16);
return ret;
}
int AES_SIV_DecryptFinal(AES_SIV_CTX *ctx, unsigned char *out,
unsigned char const *v, unsigned char const *c,
size_t len) {
block t, q;
size_t i;
uint64_t result;
int ret = 0;
ct_poison(c, len);
memcpy(&q, v, 16);
q.byte[8] &= 0x7f;
q.byte[12] &= 0x7f;
if(UNLIKELY(do_encrypt(ctx->cipher_ctx, out, c, len, &q) != 1)) {
goto done;
}
debug("plaintext", out, len);
if(UNLIKELY(do_s2v_p(ctx, &t, out, len) != 1)) {
goto done;
}
for (i = 0; i < 16; i++) {
t.byte[i] ^= v[i];
}
result = t.word[0] | t.word[1];
ct_unpoison(&result, sizeof result);
ret = !result;
if(ret) {
ct_unpoison(out, len);
} else {
OPENSSL_cleanse(out, len);
}
done:
ct_unpoison(c, len);
return ret;
}
int AES_SIV_Encrypt(AES_SIV_CTX *ctx, unsigned char *out, size_t *out_len,
unsigned char const *key, size_t key_len,
unsigned char const *nonce, size_t nonce_len,
unsigned char const *plaintext, size_t plaintext_len,
unsigned char const *ad, size_t ad_len) {
if (UNLIKELY(*out_len < plaintext_len + 16)) {
return 0;
}
*out_len = plaintext_len + 16;
if (UNLIKELY(AES_SIV_Init(ctx, key, key_len) != 1)) {
return 0;
}
if (UNLIKELY(AES_SIV_AssociateData(ctx, ad, ad_len) != 1)) {
return 0;
}
if (nonce != NULL &&
UNLIKELY(AES_SIV_AssociateData(ctx, nonce, nonce_len) != 1)) {
return 0;
}
if (UNLIKELY(AES_SIV_EncryptFinal(ctx, out, out + 16, plaintext,
plaintext_len) != 1)) {
return 0;
}
debug("IV || C", out, *out_len);
return 1;
}
int AES_SIV_Decrypt(AES_SIV_CTX *ctx, unsigned char *out, size_t *out_len,
unsigned char const *key, size_t key_len,
unsigned char const *nonce, size_t nonce_len,
unsigned char const *ciphertext, size_t ciphertext_len,
unsigned char const *ad, size_t ad_len) {
if (UNLIKELY(ciphertext_len < 16)) {
return 0;
}
if (UNLIKELY(*out_len < ciphertext_len - 16)) {
return 0;
}
*out_len = ciphertext_len - 16;
if (UNLIKELY(AES_SIV_Init(ctx, key, key_len) != 1)) {
return 0;
}
if (UNLIKELY(AES_SIV_AssociateData(ctx, ad, ad_len) != 1)) {
return 0;
}
if (nonce != NULL &&
UNLIKELY(AES_SIV_AssociateData(ctx, nonce, nonce_len) != 1)) {
return 0;
}
if (UNLIKELY(AES_SIV_DecryptFinal(ctx, out, ciphertext, ciphertext + 16,
ciphertext_len - 16) != 1)) {
return 0;
}
debug("plaintext", out, *out_len);
return 1;
}

57
pkg/libaes_siv/aes_siv.h
View File

@ -1,57 +0,0 @@
/* Copyright (c) 2017-2019 Akamai Technologies, Inc.
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef AES_SIV_H_
#define AES_SIV_H_
#include <stddef.h>
#define LIBAES_SIV_VERSION_MAJOR 1
#define LIBAES_SIV_VERSION_MINOR 0
#define LIBAES_SIV_VERSION_PATCH 1
#define LIBAES_SIV_VERSION ((LIBAES_SIV_VERSION_MAJOR << 16) + \
(LIBAES_SIV_VERSION_MINOR << 8) + \
LIBAES_SIV_VERSION_PATCH)
#ifdef __cplusplus
extern "C" {
#endif
typedef struct AES_SIV_CTX_st AES_SIV_CTX;
AES_SIV_CTX *AES_SIV_CTX_new(void);
int AES_SIV_CTX_copy(AES_SIV_CTX *dst, AES_SIV_CTX const *src);
void AES_SIV_CTX_cleanup(AES_SIV_CTX *ctx);
void AES_SIV_CTX_free(AES_SIV_CTX *ctx);
int AES_SIV_Init(AES_SIV_CTX *ctx, unsigned char const *key, size_t key_len);
int AES_SIV_AssociateData(AES_SIV_CTX *ctx, unsigned char const *data,
size_t len);
int AES_SIV_EncryptFinal(AES_SIV_CTX *ctx, unsigned char *v_out,
unsigned char *c_out, unsigned char const *plaintext,
size_t len);
int AES_SIV_DecryptFinal(AES_SIV_CTX *ctx, unsigned char *out,
unsigned char const *v, unsigned char const *c,
size_t len);
int AES_SIV_Encrypt(AES_SIV_CTX *ctx, unsigned char *out, size_t *out_len,
unsigned char const *key, size_t key_len,
unsigned char const *nonce, size_t nonce_len,
unsigned char const *plaintext, size_t plaintext_len,
unsigned char const *ad, size_t ad_len);
int AES_SIV_Decrypt(AES_SIV_CTX *ctx, unsigned char *out, size_t *out_len,
unsigned char const *key, size_t key_len,
unsigned char const *nonce, size_t nonce_len,
unsigned char const *ciphertext, size_t ciphertext_len,
unsigned char const *ad, size_t ad_len);
#ifdef __cplusplus
}
#endif
#endif

19
pkg/libaes_siv/config.h
View File

@ -1,19 +0,0 @@
#ifndef AES_SIV_CONFIG_H_
#define AES_SIV_CONFIG_H_
/* Enable ct_poison() and ct_unpoison() hooks for testing with
ctgrind. */
/* #undef ENABLE_CTGRIND */
/* Enable this to get test coverage for the portable versions of
putword() and getword() when you don't happen to have a PDP-11
in your test farm.
*/
/* #undef ENABLE_DEBUG_WEIRD_ENDIAN */
/* Enable this to get test coverage for the while loop in do_encrypt()
without having to have a multi-gigabyte test case that'll take
forever for Valgrind to crunch through
*/
/* #undef ENABLE_DEBUG_TINY_CHUNK_SIZE */
#endif

8
pkg/libaes_siv/shell.nix
View File

@ -1,8 +0,0 @@
let
pkgs = import ../../default.nix { };
in pkgs.shellFor {
name = "libaes_siv";
packages = ps: [ ps.libaes_siv ];
}