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/*
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License").
* You may not use this file except in compliance with the License.
* A copy of the License is located at
*
* http://aws.amazon.com/apache2.0
*
* or in the "license" file accompanying this file. This file is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
#include <openssl/aes.h>
#include <openssl/evp.h>
#include <openssl/sha.h>
#include "crypto/s2n_cipher.h"
#include "crypto/s2n_fips.h"
#include "crypto/s2n_openssl.h"
#include "tls/s2n_crypto.h"
#include "utils/s2n_safety.h"
#include "utils/s2n_blob.h"
/* LibreSSL and BoringSSL support the cipher, but the interface is different from Openssl's. We
* should define a separate s2n_cipher struct for LibreSSL and BoringSSL.
*/
#if !defined(LIBRESSL_VERSION_NUMBER) && !defined(OPENSSL_IS_BORINGSSL)
/* Symbols for AES-SHA1-CBC composite ciphers were added in Openssl 1.0.1
* These composite ciphers exhibit erratic behavior in LibreSSL releases.
*/
#if S2N_OPENSSL_VERSION_AT_LEAST(1,0,1)
#define S2N_AES_SHA1_COMPOSITE_AVAILABLE
#endif
#if defined(AWSLC_API_VERSION) && (AWSLC_API_VERSION <= 17)
#undef S2N_AES_SHA1_COMPOSITE_AVAILABLE
#endif
/* Symbols for AES-SHA256-CBC composite ciphers were added in Openssl 1.0.2
* See https://www.openssl.org/news/cl102.txt
* These composite ciphers exhibit erratic behavior in LibreSSL releases.
*/
#if S2N_OPENSSL_VERSION_AT_LEAST(1,0,2)
#define S2N_AES_SHA256_COMPOSITE_AVAILABLE
#endif
#if defined(AWSLC_API_VERSION) && (AWSLC_API_VERSION <= 17)
#undef S2N_AES_SHA256_COMPOSITE_AVAILABLE
#endif
#endif
/* Silly accessors, but we avoid using version macro guards in multiple places */
static const EVP_CIPHER *s2n_evp_aes_128_cbc_hmac_sha1(void)
{
#if defined(S2N_AES_SHA1_COMPOSITE_AVAILABLE)
return EVP_aes_128_cbc_hmac_sha1();
#else
return NULL;
#endif
}
static const EVP_CIPHER *s2n_evp_aes_256_cbc_hmac_sha1(void)
{
#if defined(S2N_AES_SHA1_COMPOSITE_AVAILABLE)
return EVP_aes_256_cbc_hmac_sha1();
#else
return NULL;
#endif
}
static const EVP_CIPHER *s2n_evp_aes_128_cbc_hmac_sha256(void)
{
#if defined(S2N_AES_SHA256_COMPOSITE_AVAILABLE)
return EVP_aes_128_cbc_hmac_sha256();
#else
return NULL;
#endif
}
static const EVP_CIPHER *s2n_evp_aes_256_cbc_hmac_sha256(void)
{
#if defined(S2N_AES_SHA256_COMPOSITE_AVAILABLE)
return EVP_aes_256_cbc_hmac_sha256();
#else
return NULL;
#endif
}
static uint8_t s2n_composite_cipher_aes128_sha_available(void)
{
/* EVP_aes_128_cbc_hmac_sha1() returns NULL if the implementations aren't available.
* See https://github.com/openssl/openssl/blob/master/crypto/evp/e_aes_cbc_hmac_sha1.c#L952
*
* Composite ciphers cannot be used when FIPS mode is set. Ciphers require the
* EVP_CIPH_FLAG_FIPS OpenSSL flag to be set for use when in FIPS mode, and composite
* ciphers cause OpenSSL errors due to the lack of the flag.
*/
return (!s2n_is_in_fips_mode() && s2n_evp_aes_128_cbc_hmac_sha1() ? 1 : 0);
}
static uint8_t s2n_composite_cipher_aes256_sha_available(void)
{
/* Composite ciphers cannot be used when FIPS mode is set. Ciphers require the
* EVP_CIPH_FLAG_FIPS OpenSSL flag to be set for use when in FIPS mode, and composite
* ciphers cause OpenSSL errors due to the lack of the flag.
*/
return (!s2n_is_in_fips_mode() && s2n_evp_aes_256_cbc_hmac_sha1() ? 1 : 0);
}
static uint8_t s2n_composite_cipher_aes128_sha256_available(void)
{
/* Composite ciphers cannot be used when FIPS mode is set. Ciphers require the
* EVP_CIPH_FLAG_FIPS OpenSSL flag to be set for use when in FIPS mode, and composite
* ciphers cause OpenSSL errors due to the lack of the flag.
*/
return (!s2n_is_in_fips_mode() && s2n_evp_aes_128_cbc_hmac_sha256() ? 1 : 0);
}
static uint8_t s2n_composite_cipher_aes256_sha256_available(void)
{
/* Composite ciphers cannot be used when FIPS mode is set. Ciphers require the
* EVP_CIPH_FLAG_FIPS OpenSSL flag to be set for use when in FIPS mode, and composite
* ciphers cause OpenSSL errors due to the lack of the flag.
*/
return (!s2n_is_in_fips_mode() && s2n_evp_aes_256_cbc_hmac_sha256() ? 1 : 0);
}
static int s2n_composite_cipher_aes_sha_initial_hmac(struct s2n_session_key *key, uint8_t *sequence_number, uint8_t content_type,
uint16_t protocol_version, uint16_t payload_and_eiv_len, int *extra)
{
/* BoringSSL and AWS-LC(AWSLC_API_VERSION <= 17) do not support these composite ciphers with the existing EVP API, and they took out the
* constants used below. This method should never be called with BoringSSL or AWS-LC(AWSLC_API_VERSION <= 17) because the isAvaliable checked
* will fail. Instead of defining a possibly dangerous default or hard coding this to 0x16 error out with BoringSSL and AWS-LC(AWSLC_API_VERSION <= 17).
*/
#if defined(OPENSSL_IS_BORINGSSL) || (defined(AWSLC_API_VERSION) && (AWSLC_API_VERSION <= 17))
POSIX_BAIL(S2N_ERR_NO_SUPPORTED_LIBCRYPTO_API);
#else
uint8_t ctrl_buf[S2N_TLS12_AAD_LEN];
struct s2n_blob ctrl_blob = { .data = ctrl_buf, .size = S2N_TLS12_AAD_LEN };
struct s2n_stuffer ctrl_stuffer = {0};
POSIX_GUARD(s2n_stuffer_init(&ctrl_stuffer, &ctrl_blob));
POSIX_GUARD(s2n_stuffer_write_bytes(&ctrl_stuffer, sequence_number, S2N_TLS_SEQUENCE_NUM_LEN));
POSIX_GUARD(s2n_stuffer_write_uint8(&ctrl_stuffer, content_type));
POSIX_GUARD(s2n_stuffer_write_uint8(&ctrl_stuffer, protocol_version / 10));
POSIX_GUARD(s2n_stuffer_write_uint8(&ctrl_stuffer, protocol_version % 10));
POSIX_GUARD(s2n_stuffer_write_uint16(&ctrl_stuffer, payload_and_eiv_len));
/* This will unnecessarily mangle the input buffer, which is fine since it's temporary
* Return value will be length of digest, padding, and padding length byte.
* See https://github.com/openssl/openssl/blob/master/crypto/evp/e_aes_cbc_hmac_sha1.c#L814
* and https://github.com/openssl/openssl/blob/4f0c475719defd7c051964ef9964cc6e5b3a63bf/ssl/record/ssl3_record.c#L743
*/
int ctrl_ret = EVP_CIPHER_CTX_ctrl(key->evp_cipher_ctx, EVP_CTRL_AEAD_TLS1_AAD, S2N_TLS12_AAD_LEN, ctrl_buf);
S2N_ERROR_IF(ctrl_ret <= 0, S2N_ERR_INITIAL_HMAC);
*extra = ctrl_ret;
return 0;
#endif
}
static int s2n_composite_cipher_aes_sha_encrypt(struct s2n_session_key *key, struct s2n_blob *iv, struct s2n_blob *in, struct s2n_blob *out)
{
POSIX_ENSURE_EQ(out->size, in->size);
POSIX_GUARD_OSSL(EVP_EncryptInit_ex(key->evp_cipher_ctx, NULL, NULL, NULL, iv->data), S2N_ERR_KEY_INIT);
/* len is set by EVP_EncryptUpdate and checked post operation */
int len = 0;
POSIX_GUARD_OSSL(EVP_EncryptUpdate(key->evp_cipher_ctx, out->data, &len, in->data, in->size), S2N_ERR_ENCRYPT);
S2N_ERROR_IF(len != in->size, S2N_ERR_ENCRYPT);
return 0;
}
static int s2n_composite_cipher_aes_sha_decrypt(struct s2n_session_key *key, struct s2n_blob *iv, struct s2n_blob *in, struct s2n_blob *out)
{
POSIX_ENSURE_EQ(out->size, in->size);
POSIX_GUARD_OSSL(EVP_DecryptInit_ex(key->evp_cipher_ctx, NULL, NULL, NULL, iv->data), S2N_ERR_KEY_INIT);
/* len is set by EVP_DecryptUpdate. It is not checked here but padding is manually removed and therefore
* the decryption operation is validated. */
int len = 0;
POSIX_GUARD_OSSL(EVP_DecryptUpdate(key->evp_cipher_ctx, out->data, &len, in->data, in->size), S2N_ERR_DECRYPT);
return 0;
}
static int s2n_composite_cipher_aes_sha_set_mac_write_key(struct s2n_session_key *key, uint8_t *mac_key, uint32_t mac_size)
{
POSIX_ENSURE_EQ(mac_size, SHA_DIGEST_LENGTH);
EVP_CIPHER_CTX_ctrl(key->evp_cipher_ctx, EVP_CTRL_AEAD_SET_MAC_KEY, mac_size, mac_key);
return 0;
}
static int s2n_composite_cipher_aes_sha256_set_mac_write_key(struct s2n_session_key *key, uint8_t *mac_key, uint32_t mac_size)
{
POSIX_ENSURE_EQ(mac_size, SHA256_DIGEST_LENGTH);
EVP_CIPHER_CTX_ctrl(key->evp_cipher_ctx, EVP_CTRL_AEAD_SET_MAC_KEY, mac_size, mac_key);
return 0;
}
static int s2n_composite_cipher_aes128_sha_set_encryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 16);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_EncryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_128_cbc_hmac_sha1(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes128_sha_set_decryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 16);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_DecryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_128_cbc_hmac_sha1(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes256_sha_set_encryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 32);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_EncryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_256_cbc_hmac_sha1(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes256_sha_set_decryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 32);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_DecryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_256_cbc_hmac_sha1(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes128_sha256_set_encryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 16);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_EncryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_128_cbc_hmac_sha256(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes128_sha256_set_decryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 16);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_DecryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_128_cbc_hmac_sha256(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes256_sha256_set_encryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 32);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_EncryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_256_cbc_hmac_sha256(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes256_sha256_set_decryption_key(struct s2n_session_key *key, struct s2n_blob *in)
{
POSIX_ENSURE_EQ(in->size, 32);
EVP_CIPHER_CTX_set_padding(key->evp_cipher_ctx, 0);
EVP_DecryptInit_ex(key->evp_cipher_ctx, s2n_evp_aes_256_cbc_hmac_sha256(), NULL, in->data, NULL);
return 0;
}
static int s2n_composite_cipher_aes_sha_init(struct s2n_session_key *key)
{
s2n_evp_ctx_init(key->evp_cipher_ctx);
return 0;
}
static int s2n_composite_cipher_aes_sha_destroy_key(struct s2n_session_key *key)
{
EVP_CIPHER_CTX_cleanup(key->evp_cipher_ctx);
return 0;
}
struct s2n_cipher s2n_aes128_sha = {
.key_material_size = 16,
.type = S2N_COMPOSITE,
.io.comp = {
.block_size = 16,
.record_iv_size = 16,
.mac_key_size = SHA_DIGEST_LENGTH,
.decrypt = s2n_composite_cipher_aes_sha_decrypt,
.encrypt = s2n_composite_cipher_aes_sha_encrypt,
.set_mac_write_key = s2n_composite_cipher_aes_sha_set_mac_write_key,
.initial_hmac = s2n_composite_cipher_aes_sha_initial_hmac },
.is_available = s2n_composite_cipher_aes128_sha_available,
.init = s2n_composite_cipher_aes_sha_init,
.set_encryption_key = s2n_composite_cipher_aes128_sha_set_encryption_key,
.set_decryption_key = s2n_composite_cipher_aes128_sha_set_decryption_key,
.destroy_key = s2n_composite_cipher_aes_sha_destroy_key,
};
struct s2n_cipher s2n_aes256_sha = {
.key_material_size = 32,
.type = S2N_COMPOSITE,
.io.comp = {
.block_size = 16,
.record_iv_size = 16,
.mac_key_size = SHA_DIGEST_LENGTH,
.decrypt = s2n_composite_cipher_aes_sha_decrypt,
.encrypt = s2n_composite_cipher_aes_sha_encrypt,
.set_mac_write_key = s2n_composite_cipher_aes_sha_set_mac_write_key,
.initial_hmac = s2n_composite_cipher_aes_sha_initial_hmac },
.is_available = s2n_composite_cipher_aes256_sha_available,
.init = s2n_composite_cipher_aes_sha_init,
.set_encryption_key = s2n_composite_cipher_aes256_sha_set_encryption_key,
.set_decryption_key = s2n_composite_cipher_aes256_sha_set_decryption_key,
.destroy_key = s2n_composite_cipher_aes_sha_destroy_key,
};
struct s2n_cipher s2n_aes128_sha256 = {
.key_material_size = 16,
.type = S2N_COMPOSITE,
.io.comp = {
.block_size = 16,
.record_iv_size = 16,
.mac_key_size = SHA256_DIGEST_LENGTH,
.decrypt = s2n_composite_cipher_aes_sha_decrypt,
.encrypt = s2n_composite_cipher_aes_sha_encrypt,
.set_mac_write_key = s2n_composite_cipher_aes_sha256_set_mac_write_key,
.initial_hmac = s2n_composite_cipher_aes_sha_initial_hmac },
.is_available = s2n_composite_cipher_aes128_sha256_available,
.init = s2n_composite_cipher_aes_sha_init,
.set_encryption_key = s2n_composite_cipher_aes128_sha256_set_encryption_key,
.set_decryption_key = s2n_composite_cipher_aes128_sha256_set_decryption_key,
.destroy_key = s2n_composite_cipher_aes_sha_destroy_key,
};
struct s2n_cipher s2n_aes256_sha256 = {
.key_material_size = 32,
.type = S2N_COMPOSITE,
.io.comp = {
.block_size = 16,
.record_iv_size = 16,
.mac_key_size = SHA256_DIGEST_LENGTH,
.decrypt = s2n_composite_cipher_aes_sha_decrypt,
.encrypt = s2n_composite_cipher_aes_sha_encrypt,
.set_mac_write_key = s2n_composite_cipher_aes_sha256_set_mac_write_key,
.initial_hmac = s2n_composite_cipher_aes_sha_initial_hmac },
.is_available = s2n_composite_cipher_aes256_sha256_available,
.init = s2n_composite_cipher_aes_sha_init,
.set_encryption_key = s2n_composite_cipher_aes256_sha256_set_encryption_key,
.set_decryption_key = s2n_composite_cipher_aes256_sha256_set_decryption_key,
.destroy_key = s2n_composite_cipher_aes_sha_destroy_key,
};
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