tor/src/common/aes.c

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/* Copyright (c) 2001, Matej Pfajfar.
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* Copyright (c) 2001-2004, Roger Dingledine.
* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
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* Copyright (c) 2007-2016, The Tor Project, Inc. */
/* See LICENSE for licensing information */
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/**
* \file aes.c
* \brief Implements a counter-mode stream cipher on top of AES.
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**/
#include "orconfig.h"
#ifdef _WIN32 /*wrkard for dtls1.h >= 0.9.8m of "#include <winsock.h>"*/
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#include <winsock2.h>
#include <ws2tcpip.h>
#endif
#include <openssl/opensslv.h>
#include "crypto.h"
#if OPENSSL_VERSION_NUMBER < OPENSSL_V_SERIES(1,0,0)
#error "We require OpenSSL >= 1.0.0"
#endif
DISABLE_GCC_WARNING(redundant-decls)
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <openssl/aes.h>
#include <openssl/evp.h>
#include <openssl/engine.h>
#include <openssl/modes.h>
ENABLE_GCC_WARNING(redundant-decls)
#include "compat.h"
#include "aes.h"
#include "util.h"
#include "torlog.h"
#include "di_ops.h"
#ifdef ANDROID
/* Android's OpenSSL seems to have removed all of its Engine support. */
#define DISABLE_ENGINES
#endif
/* We have five strategies for implementing AES counter mode.
*
* Best with x86 and x86_64: Use EVP_aes_ctr128() and EVP_EncryptUpdate().
* This is possible with OpenSSL 1.0.1, where the counter-mode implementation
* can use bit-sliced or vectorized AES or AESNI as appropriate.
*
* Otherwise: Pick the best possible AES block implementation that OpenSSL
* gives us, and the best possible counter-mode implementation, and combine
* them.
*/
#if OPENSSL_VERSION_NUMBER >= OPENSSL_V_NOPATCH(1,0,1) && \
(defined(__i386) || defined(__i386__) || defined(_M_IX86) || \
defined(__x86_64) || defined(__x86_64__) || \
defined(_M_AMD64) || defined(_M_X64) || defined(__INTEL__)) \
#define USE_EVP_AES_CTR
#endif
/* We have 2 strategies for getting the AES block cipher: Via OpenSSL's
* AES_encrypt function, or via OpenSSL's EVP_EncryptUpdate function.
*
* If there's any hardware acceleration in play, we want to be using EVP_* so
* we can get it. Otherwise, we'll want AES_*, which seems to be about 5%
* faster than indirecting through the EVP layer.
*/
/* We have 2 strategies for getting a plug-in counter mode: use our own, or
* use OpenSSL's.
*
* Here we have a counter mode that's faster than the one shipping with
* OpenSSL pre-1.0 (by about 10%!). But OpenSSL 1.0.0 added a counter mode
* implementation faster than the one here (by about 7%). So we pick which
* one to used based on the Openssl version above. (OpenSSL 1.0.0a fixed a
* critical bug in that counter mode implementation, so we need to test to
* make sure that we have a fixed version.)
*/
#ifdef USE_EVP_AES_CTR
/* We don't actually define the struct here. */
aes_cnt_cipher_t *
aes_new_cipher(const char *key, const char *iv)
{
EVP_CIPHER_CTX *cipher = EVP_CIPHER_CTX_new();
EVP_EncryptInit(cipher, EVP_aes_128_ctr(),
(const unsigned char*)key, (const unsigned char *)iv);
return (aes_cnt_cipher_t *) cipher;
}
void
aes_cipher_free(aes_cnt_cipher_t *cipher_)
{
if (!cipher_)
return;
EVP_CIPHER_CTX *cipher = (EVP_CIPHER_CTX *) cipher_;
EVP_CIPHER_CTX_cleanup(cipher);
EVP_CIPHER_CTX_free(cipher);
}
void
aes_crypt_inplace(aes_cnt_cipher_t *cipher_, char *data, size_t len)
{
int outl;
EVP_CIPHER_CTX *cipher = (EVP_CIPHER_CTX *) cipher_;
tor_assert(len < INT_MAX);
EVP_EncryptUpdate(cipher, (unsigned char*)data,
&outl, (unsigned char*)data, (int)len);
}
int
evaluate_evp_for_aes(int force_val)
{
(void) force_val;
log_info(LD_CRYPTO, "This version of OpenSSL has a known-good EVP "
"counter-mode implementation. Using it.");
return 0;
}
int
evaluate_ctr_for_aes(void)
{
return 0;
}
#else
/*======================================================================*/
/* Interface to AES code, and counter implementation */
/** Implements an AES counter-mode cipher. */
struct aes_cnt_cipher {
/** This next element (however it's defined) is the AES key. */
union {
EVP_CIPHER_CTX evp;
AES_KEY aes;
} key;
#if !defined(WORDS_BIGENDIAN)
#define USING_COUNTER_VARS
/** These four values, together, implement a 128-bit counter, with
* counter0 as the low-order word and counter3 as the high-order word. */
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uint32_t counter3;
uint32_t counter2;
uint32_t counter1;
uint32_t counter0;
#endif
union {
/** The counter, in big-endian order, as bytes. */
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uint8_t buf[16];
/** The counter, in big-endian order, as big-endian words. Note that
* on big-endian platforms, this is redundant with counter3...0,
* so we just use these values instead. */
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uint32_t buf32[4];
} ctr_buf;
/** The encrypted value of ctr_buf. */
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uint8_t buf[16];
/** Our current stream position within buf. */
unsigned int pos;
/** True iff we're using the evp implementation of this cipher. */
uint8_t using_evp;
};
/** True iff we should prefer the EVP implementation for AES, either because
* we're testing it or because we have hardware acceleration configured */
static int should_use_EVP = 0;
/** Check whether we should use the EVP interface for AES. If <b>force_val</b>
* is nonnegative, we use use EVP iff it is true. Otherwise, we use EVP
* if there is an engine enabled for aes-ecb. */
int
evaluate_evp_for_aes(int force_val)
{
ENGINE *e;
if (force_val >= 0) {
should_use_EVP = force_val;
return 0;
}
#ifdef DISABLE_ENGINES
should_use_EVP = 0;
#else
e = ENGINE_get_cipher_engine(NID_aes_128_ecb);
if (e) {
log_info(LD_CRYPTO, "AES engine \"%s\" found; using EVP_* functions.",
ENGINE_get_name(e));
should_use_EVP = 1;
} else {
log_info(LD_CRYPTO, "No AES engine found; using AES_* functions.");
should_use_EVP = 0;
}
#endif
return 0;
}
/** Test the OpenSSL counter mode implementation to see whether it has the
* counter-mode bug from OpenSSL 1.0.0. If the implementation works, then
* we will use it for future encryption/decryption operations.
*
* We can't just look at the OpenSSL version, since some distributions update
* their OpenSSL packages without changing the version number.
**/
int
evaluate_ctr_for_aes(void)
{
/* Result of encrypting an all-zero block with an all-zero 128-bit AES key.
* This should be the same as encrypting an all-zero block with an all-zero
* 128-bit AES key in counter mode, starting at position 0 of the stream.
*/
static const unsigned char encrypt_zero[] =
"\x66\xe9\x4b\xd4\xef\x8a\x2c\x3b\x88\x4c\xfa\x59\xca\x34\x2b\x2e";
unsigned char zero[16];
unsigned char output[16];
unsigned char ivec[16];
unsigned char ivec_tmp[16];
unsigned int pos, i;
AES_KEY key;
memset(zero, 0, sizeof(zero));
memset(ivec, 0, sizeof(ivec));
AES_set_encrypt_key(zero, 128, &key);
pos = 0;
/* Encrypting a block one byte at a time should make the error manifest
* itself for known bogus openssl versions. */
for (i=0; i<16; ++i)
AES_ctr128_encrypt(&zero[i], &output[i], 1, &key, ivec, ivec_tmp, &pos);
if (fast_memneq(output, encrypt_zero, 16)) {
/* Counter mode is buggy */
log_err(LD_CRYPTO, "This OpenSSL has a buggy version of counter mode; "
"quitting tor.");
exit(1);
}
return 0;
}
#if !defined(USING_COUNTER_VARS)
#define COUNTER(c, n) ((c)->ctr_buf.buf32[3-(n)])
#else
#define COUNTER(c, n) ((c)->counter ## n)
#endif
static void aes_set_key(aes_cnt_cipher_t *cipher, const char *key,
int key_bits);
static void aes_set_iv(aes_cnt_cipher_t *cipher, const char *iv);
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/**
* Return a newly allocated counter-mode AES128 cipher implementation,
* using the 128-bit key <b>key</b> and the 128-bit IV <b>iv</b>.
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*/
aes_cnt_cipher_t*
aes_new_cipher(const char *key, const char *iv)
{
aes_cnt_cipher_t* result = tor_malloc_zero(sizeof(aes_cnt_cipher_t));
aes_set_key(result, key, 128);
aes_set_iv(result, iv);
return result;
}
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/** Set the key of <b>cipher</b> to <b>key</b>, which is
* <b>key_bits</b> bits long (must be 128, 192, or 256). Also resets
* the counter to 0.
*/
static void
aes_set_key(aes_cnt_cipher_t *cipher, const char *key, int key_bits)
{
if (should_use_EVP) {
const EVP_CIPHER *c = 0;
switch (key_bits) {
case 128: c = EVP_aes_128_ecb(); break;
case 192: c = EVP_aes_192_ecb(); break;
case 256: c = EVP_aes_256_ecb(); break;
default: tor_assert(0);
}
EVP_EncryptInit(&cipher->key.evp, c, (const unsigned char*)key, NULL);
cipher->using_evp = 1;
} else {
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AES_set_encrypt_key((const unsigned char *)key, key_bits,&cipher->key.aes);
cipher->using_evp = 0;
}
#ifdef USING_COUNTER_VARS
cipher->counter0 = 0;
cipher->counter1 = 0;
cipher->counter2 = 0;
cipher->counter3 = 0;
#endif
memset(cipher->ctr_buf.buf, 0, sizeof(cipher->ctr_buf.buf));
cipher->pos = 0;
memset(cipher->buf, 0, sizeof(cipher->buf));
}
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/** Release storage held by <b>cipher</b>
*/
void
aes_cipher_free(aes_cnt_cipher_t *cipher)
{
if (!cipher)
return;
if (cipher->using_evp) {
EVP_CIPHER_CTX_cleanup(&cipher->key.evp);
}
memwipe(cipher, 0, sizeof(aes_cnt_cipher_t));
tor_free(cipher);
}
#if defined(USING_COUNTER_VARS)
#define UPDATE_CTR_BUF(c, n) STMT_BEGIN \
(c)->ctr_buf.buf32[3-(n)] = htonl((c)->counter ## n); \
STMT_END
#else
#define UPDATE_CTR_BUF(c, n)
#endif
/* Helper function to use EVP with openssl's counter-mode wrapper. */
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static void
evp_block128_fn(const uint8_t in[16],
uint8_t out[16],
const void *key)
{
EVP_CIPHER_CTX *ctx = (void*)key;
int inl=16, outl=16;
EVP_EncryptUpdate(ctx, out, &outl, in, inl);
}
/** Encrypt <b>len</b> bytes from <b>input</b>, storing the results in place.
* Uses the key in <b>cipher</b>, and advances the counter by <b>len</b> bytes
* as it encrypts.
*/
void
aes_crypt_inplace(aes_cnt_cipher_t *cipher, char *data, size_t len)
{
if (cipher->using_evp) {
/* In openssl 1.0.0, there's an if'd out EVP_aes_128_ctr in evp.h. If
* it weren't disabled, it might be better just to use that.
*/
CRYPTO_ctr128_encrypt((const unsigned char *)data,
(unsigned char *)data,
len,
&cipher->key.evp,
cipher->ctr_buf.buf,
cipher->buf,
&cipher->pos,
evp_block128_fn);
} else {
AES_ctr128_encrypt((const unsigned char *)data,
(unsigned char *)data,
len,
&cipher->key.aes,
cipher->ctr_buf.buf,
cipher->buf,
&cipher->pos);
}
}
/** Reset the 128-bit counter of <b>cipher</b> to the 16-bit big-endian value
* in <b>iv</b>. */
static void
aes_set_iv(aes_cnt_cipher_t *cipher, const char *iv)
{
#ifdef USING_COUNTER_VARS
cipher->counter3 = ntohl(get_uint32(iv));
cipher->counter2 = ntohl(get_uint32(iv+4));
cipher->counter1 = ntohl(get_uint32(iv+8));
cipher->counter0 = ntohl(get_uint32(iv+12));
#endif
cipher->pos = 0;
memcpy(cipher->ctr_buf.buf, iv, 16);
}
#endif
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