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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/crypto.h>
#include <string.h>
#include "crypto/s2n_cipher.h"
#include "crypto/s2n_openssl.h"
#include "error/s2n_errno.h"
#include "pq-crypto/s2n_pq.h"
#include "tls/s2n_auth_selection.h"
#include "tls/s2n_kex.h"
#include "tls/s2n_psk.h"
#include "tls/s2n_security_policies.h"
#include "tls/s2n_tls.h"
#include "tls/s2n_tls13.h"
#include "utils/s2n_safety.h"
/*************************
* S2n Record Algorithms *
*************************/
const struct s2n_record_algorithm s2n_record_alg_null = {
.cipher = &s2n_null_cipher,
.hmac_alg = S2N_HMAC_NONE,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_rc4_md5 = {
.cipher = &s2n_rc4,
.hmac_alg = S2N_HMAC_MD5,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_rc4_sslv3_md5 = {
.cipher = &s2n_rc4,
.hmac_alg = S2N_HMAC_SSLv3_MD5,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_rc4_sha = {
.cipher = &s2n_rc4,
.hmac_alg = S2N_HMAC_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_rc4_sslv3_sha = {
.cipher = &s2n_rc4,
.hmac_alg = S2N_HMAC_SSLv3_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_3des_sha = {
.cipher = &s2n_3des,
.hmac_alg = S2N_HMAC_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_3des_sslv3_sha = {
.cipher = &s2n_3des,
.hmac_alg = S2N_HMAC_SSLv3_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes128_sha = {
.cipher = &s2n_aes128,
.hmac_alg = S2N_HMAC_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes128_sslv3_sha = {
.cipher = &s2n_aes128,
.hmac_alg = S2N_HMAC_SSLv3_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes128_sha_composite = {
.cipher = &s2n_aes128_sha,
.hmac_alg = S2N_HMAC_NONE,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes128_sha256 = {
.cipher = &s2n_aes128,
.hmac_alg = S2N_HMAC_SHA256,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes128_sha256_composite = {
.cipher = &s2n_aes128_sha256,
.hmac_alg = S2N_HMAC_NONE,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_sha = {
.cipher = &s2n_aes256,
.hmac_alg = S2N_HMAC_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_sslv3_sha = {
.cipher = &s2n_aes256,
.hmac_alg = S2N_HMAC_SSLv3_SHA1,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_sha_composite = {
.cipher = &s2n_aes256_sha,
.hmac_alg = S2N_HMAC_NONE,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_sha256 = {
.cipher = &s2n_aes256,
.hmac_alg = S2N_HMAC_SHA256,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_sha256_composite = {
.cipher = &s2n_aes256_sha256,
.hmac_alg = S2N_HMAC_NONE,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_sha384 = {
.cipher = &s2n_aes256,
.hmac_alg = S2N_HMAC_SHA384,
.flags = 0,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes128_gcm = {
.cipher = &s2n_aes128_gcm,
.hmac_alg = S2N_HMAC_NONE,
.flags = S2N_TLS12_AES_GCM_AEAD_NONCE,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_aes256_gcm = {
.cipher = &s2n_aes256_gcm,
.hmac_alg = S2N_HMAC_NONE,
.flags = S2N_TLS12_AES_GCM_AEAD_NONCE,
.encryption_limit = UINT64_MAX,
};
const struct s2n_record_algorithm s2n_record_alg_chacha20_poly1305 = {
.cipher = &s2n_chacha20_poly1305,
.hmac_alg = S2N_HMAC_NONE,
/* Per RFC 7905, ChaCha20-Poly1305 will use a nonce construction expected to be used in TLS1.3.
* Give it a distinct 1.2 nonce value in case this changes.
*/
.flags = S2N_TLS12_CHACHA_POLY_AEAD_NONCE,
.encryption_limit = UINT64_MAX,
};
/* TLS 1.3 Record Algorithms */
const struct s2n_record_algorithm s2n_tls13_record_alg_aes128_gcm = {
.cipher = &s2n_tls13_aes128_gcm,
.hmac_alg = S2N_HMAC_NONE, /* previously used in 1.2 prf, we do not need this */
.flags = S2N_TLS13_RECORD_AEAD_NONCE,
.encryption_limit = S2N_TLS13_AES_GCM_MAXIMUM_RECORD_NUMBER,
};
const struct s2n_record_algorithm s2n_tls13_record_alg_aes256_gcm = {
.cipher = &s2n_tls13_aes256_gcm,
.hmac_alg = S2N_HMAC_NONE,
.flags = S2N_TLS13_RECORD_AEAD_NONCE,
.encryption_limit = S2N_TLS13_AES_GCM_MAXIMUM_RECORD_NUMBER,
};
const struct s2n_record_algorithm s2n_tls13_record_alg_chacha20_poly1305 = {
.cipher = &s2n_chacha20_poly1305,
.hmac_alg = S2N_HMAC_NONE,
/* this mirrors s2n_record_alg_chacha20_poly1305 with the exception of TLS 1.3 nonce flag */
.flags = S2N_TLS13_RECORD_AEAD_NONCE,
.encryption_limit = UINT64_MAX,
};
/*********************
* S2n Cipher Suites *
*********************/
/* This is the initial cipher suite, but is never negotiated */
struct s2n_cipher_suite s2n_null_cipher_suite = {
.available = 1,
.name = "TLS_NULL_WITH_NULL_NULL",
.iana_value = { TLS_NULL_WITH_NULL_NULL },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = &s2n_record_alg_null,
};
struct s2n_cipher_suite s2n_rsa_with_rc4_128_md5 = /* 0x00,0x04 */ {
.available = 0,
.name = "RC4-MD5",
.iana_value = { TLS_RSA_WITH_RC4_128_MD5 },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_rc4_md5 },
.num_record_algs = 1,
.sslv3_record_alg = &s2n_record_alg_rc4_sslv3_md5,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_rsa_with_rc4_128_sha = /* 0x00,0x05 */ {
.available = 0,
.name = "RC4-SHA",
.iana_value = { TLS_RSA_WITH_RC4_128_SHA },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_rc4_sha },
.num_record_algs = 1,
.sslv3_record_alg = &s2n_record_alg_rc4_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_rsa_with_3des_ede_cbc_sha = /* 0x00,0x0A */ {
.available = 0,
.name = "DES-CBC3-SHA",
.iana_value = { TLS_RSA_WITH_3DES_EDE_CBC_SHA },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_3des_sha },
.num_record_algs = 1,
.sslv3_record_alg = &s2n_record_alg_3des_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_3des_ede_cbc_sha = /* 0x00,0x16 */ {
.available = 0,
.name = "DHE-RSA-DES-CBC3-SHA",
.iana_value = { TLS_DHE_RSA_WITH_3DES_EDE_CBC_SHA },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_3des_sha },
.num_record_algs = 1,
.sslv3_record_alg = &s2n_record_alg_3des_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_rsa_with_aes_128_cbc_sha = /* 0x00,0x2F */ {
.available = 0,
.name = "AES128-SHA",
.iana_value = { TLS_RSA_WITH_AES_128_CBC_SHA },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha_composite, &s2n_record_alg_aes128_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes128_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_aes_128_cbc_sha = /* 0x00,0x33 */ {
.available = 0,
.name = "DHE-RSA-AES128-SHA",
.iana_value = { TLS_DHE_RSA_WITH_AES_128_CBC_SHA },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha_composite, &s2n_record_alg_aes128_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes128_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_rsa_with_aes_256_cbc_sha = /* 0x00,0x35 */ {
.available = 0,
.name = "AES256-SHA",
.iana_value = { TLS_RSA_WITH_AES_256_CBC_SHA },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha_composite, &s2n_record_alg_aes256_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes256_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_aes_256_cbc_sha = /* 0x00,0x39 */ {
.available = 0,
.name = "DHE-RSA-AES256-SHA",
.iana_value = { TLS_DHE_RSA_WITH_AES_256_CBC_SHA },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha_composite, &s2n_record_alg_aes256_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes256_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_rsa_with_aes_128_cbc_sha256 = /* 0x00,0x3C */ {
.available = 0,
.name = "AES128-SHA256",
.iana_value = { TLS_RSA_WITH_AES_128_CBC_SHA256 },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha256_composite, &s2n_record_alg_aes128_sha256 },
.num_record_algs = 2,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_rsa_with_aes_256_cbc_sha256 = /* 0x00,0x3D */ {
.available = 0,
.name = "AES256-SHA256",
.iana_value = { TLS_RSA_WITH_AES_256_CBC_SHA256 },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha256_composite, &s2n_record_alg_aes256_sha256 },
.num_record_algs = 2,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_aes_128_cbc_sha256 = /* 0x00,0x67 */ {
.available = 0,
.name = "DHE-RSA-AES128-SHA256",
.iana_value = { TLS_DHE_RSA_WITH_AES_128_CBC_SHA256 },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha256_composite, &s2n_record_alg_aes128_sha256 },
.num_record_algs = 2,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_aes_256_cbc_sha256 = /* 0x00,0x6B */ {
.available = 0,
.name = "DHE-RSA-AES256-SHA256",
.iana_value = { TLS_DHE_RSA_WITH_AES_256_CBC_SHA256 },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha256_composite, &s2n_record_alg_aes256_sha256 },
.num_record_algs = 2,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_rsa_with_aes_128_gcm_sha256 = /* 0x00,0x9C */ {
.available = 0,
.name = "AES128-GCM-SHA256",
.iana_value = { TLS_RSA_WITH_AES_128_GCM_SHA256 },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_rsa_with_aes_256_gcm_sha384 = /* 0x00,0x9D */ {
.available = 0,
.name = "AES256-GCM-SHA384",
.iana_value = { TLS_RSA_WITH_AES_256_GCM_SHA384 },
.key_exchange_alg = &s2n_rsa,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_aes_128_gcm_sha256 = /* 0x00,0x9E */ {
.available = 0,
.name = "DHE-RSA-AES128-GCM-SHA256",
.iana_value = { TLS_DHE_RSA_WITH_AES_128_GCM_SHA256 },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_aes_256_gcm_sha384 = /* 0x00,0x9F */ {
.available = 0,
.name = "DHE-RSA-AES256-GCM-SHA384",
.iana_value = { TLS_DHE_RSA_WITH_AES_256_GCM_SHA384 },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_aes_128_cbc_sha = /* 0xC0,0x09 */ {
.available = 0,
.name = "ECDHE-ECDSA-AES128-SHA",
.iana_value = { TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha_composite, &s2n_record_alg_aes128_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes128_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_aes_256_cbc_sha = /* 0xC0,0x0A */ {
.available = 0,
.name = "ECDHE-ECDSA-AES256-SHA",
.iana_value = { TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha_composite, &s2n_record_alg_aes256_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes256_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_rc4_128_sha = /* 0xC0,0x11 */ {
.available = 0,
.name = "ECDHE-RSA-RC4-SHA",
.iana_value = { TLS_ECDHE_RSA_WITH_RC4_128_SHA },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_rc4_sha },
.num_record_algs = 1,
.sslv3_record_alg = &s2n_record_alg_rc4_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_3des_ede_cbc_sha = /* 0xC0,0x12 */ {
.available = 0,
.name = "ECDHE-RSA-DES-CBC3-SHA",
.iana_value = { TLS_ECDHE_RSA_WITH_3DES_EDE_CBC_SHA },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_3des_sha },
.num_record_algs = 1,
.sslv3_record_alg = &s2n_record_alg_3des_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_aes_128_cbc_sha = /* 0xC0,0x13 */ {
.available = 0,
.name = "ECDHE-RSA-AES128-SHA",
.iana_value = { TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha_composite, &s2n_record_alg_aes128_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes128_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_aes_256_cbc_sha = /* 0xC0,0x14 */ {
.available = 0,
.name = "ECDHE-RSA-AES256-SHA",
.iana_value = { TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha_composite, &s2n_record_alg_aes256_sha },
.num_record_algs = 2,
.sslv3_record_alg = &s2n_record_alg_aes256_sslv3_sha,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_SSLv3,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_aes_128_cbc_sha256 = /* 0xC0,0x23 */ {
.available = 0,
.name = "ECDHE-ECDSA-AES128-SHA256",
.iana_value = { TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha256_composite, &s2n_record_alg_aes128_sha256 },
.num_record_algs = 2,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_aes_256_cbc_sha384 = /* 0xC0,0x24 */ {
.available = 0,
.name = "ECDHE-ECDSA-AES256-SHA384",
.iana_value = { TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha384 },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_aes_128_cbc_sha256 = /* 0xC0,0x27 */ {
.available = 0,
.name = "ECDHE-RSA-AES128-SHA256",
.iana_value = { TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_sha256_composite, &s2n_record_alg_aes128_sha256 },
.num_record_algs = 2,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_aes_256_cbc_sha384 = /* 0xC0,0x28 */ {
.available = 0,
.name = "ECDHE-RSA-AES256-SHA384",
.iana_value = { TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_sha384 },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_aes_128_gcm_sha256 = /* 0xC0,0x2B */ {
.available = 0,
.name = "ECDHE-ECDSA-AES128-GCM-SHA256",
.iana_value = { TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_aes_256_gcm_sha384 = /* 0xC0,0x2C */ {
.available = 0,
.name = "ECDHE-ECDSA-AES256-GCM-SHA384",
.iana_value = { TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_aes_128_gcm_sha256 = /* 0xC0,0x2F */ {
.available = 0,
.name = "ECDHE-RSA-AES128-GCM-SHA256",
.iana_value = { TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes128_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_aes_256_gcm_sha384 = /* 0xC0,0x30 */ {
.available = 0,
.name = "ECDHE-RSA-AES256-GCM-SHA384",
.iana_value = { TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_rsa_with_chacha20_poly1305_sha256 = /* 0xCC,0xA8 */ {
.available = 0,
.name = "ECDHE-RSA-CHACHA20-POLY1305",
.iana_value = { TLS_ECDHE_RSA_WITH_CHACHA20_POLY1305_SHA256 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_chacha20_poly1305 },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_ecdhe_ecdsa_with_chacha20_poly1305_sha256 = /* 0xCC,0xA9 */ {
.available = 0,
.name = "ECDHE-ECDSA-CHACHA20-POLY1305",
.iana_value = { TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305_SHA256 },
.key_exchange_alg = &s2n_ecdhe,
.auth_method = S2N_AUTHENTICATION_ECDSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_chacha20_poly1305 },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_dhe_rsa_with_chacha20_poly1305_sha256 = /* 0xCC,0xAA */ {
.available = 0,
.name = "DHE-RSA-CHACHA20-POLY1305",
.iana_value = { TLS_DHE_RSA_WITH_CHACHA20_POLY1305_SHA256 },
.key_exchange_alg = &s2n_dhe,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_chacha20_poly1305 },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS12,
};
/* From https://tools.ietf.org/html/draft-campagna-tls-bike-sike-hybrid */
struct s2n_cipher_suite s2n_ecdhe_kyber_rsa_with_aes_256_gcm_sha384 = /* 0xFF, 0x0C */ {
.available = 0,
.name = "ECDHE-KYBER-RSA-AES256-GCM-SHA384",
.iana_value = { TLS_ECDHE_KYBER_RSA_WITH_AES_256_GCM_SHA384 },
.key_exchange_alg = &s2n_hybrid_ecdhe_kem,
.auth_method = S2N_AUTHENTICATION_RSA,
.record_alg = NULL,
.all_record_algs = { &s2n_record_alg_aes256_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS12,
};
struct s2n_cipher_suite s2n_tls13_aes_128_gcm_sha256 = {
.available = 0,
.name = "TLS_AES_128_GCM_SHA256",
.iana_value = { TLS_AES_128_GCM_SHA256 },
.key_exchange_alg = NULL,
.auth_method = S2N_AUTHENTICATION_METHOD_TLS13,
.record_alg = NULL,
.all_record_algs = { &s2n_tls13_record_alg_aes128_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS13,
};
struct s2n_cipher_suite s2n_tls13_aes_256_gcm_sha384 = {
.available = 0,
.name = "TLS_AES_256_GCM_SHA384",
.iana_value = { TLS_AES_256_GCM_SHA384 },
.key_exchange_alg = NULL,
.auth_method = S2N_AUTHENTICATION_METHOD_TLS13,
.record_alg = NULL,
.all_record_algs = { &s2n_tls13_record_alg_aes256_gcm },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA384,
.minimum_required_tls_version = S2N_TLS13,
};
struct s2n_cipher_suite s2n_tls13_chacha20_poly1305_sha256 = {
.available = 0,
.name = "TLS_CHACHA20_POLY1305_SHA256",
.iana_value = { TLS_CHACHA20_POLY1305_SHA256 },
.key_exchange_alg = NULL,
.auth_method = S2N_AUTHENTICATION_METHOD_TLS13,
.record_alg = NULL,
.all_record_algs = { &s2n_tls13_record_alg_chacha20_poly1305 },
.num_record_algs = 1,
.sslv3_record_alg = NULL,
.prf_alg = S2N_HMAC_SHA256,
.minimum_required_tls_version = S2N_TLS13,
};
/* All of the cipher suites that s2n negotiates in order of IANA value.
* New cipher suites MUST be added here, IN ORDER, or they will not be
* properly initialized.
*/
static struct s2n_cipher_suite *s2n_all_cipher_suites[] = {
&s2n_rsa_with_rc4_128_md5, /* 0x00,0x04 */
&s2n_rsa_with_rc4_128_sha, /* 0x00,0x05 */
&s2n_rsa_with_3des_ede_cbc_sha, /* 0x00,0x0A */
&s2n_dhe_rsa_with_3des_ede_cbc_sha, /* 0x00,0x16 */
&s2n_rsa_with_aes_128_cbc_sha, /* 0x00,0x2F */
&s2n_dhe_rsa_with_aes_128_cbc_sha, /* 0x00,0x33 */
&s2n_rsa_with_aes_256_cbc_sha, /* 0x00,0x35 */
&s2n_dhe_rsa_with_aes_256_cbc_sha, /* 0x00,0x39 */
&s2n_rsa_with_aes_128_cbc_sha256, /* 0x00,0x3C */
&s2n_rsa_with_aes_256_cbc_sha256, /* 0x00,0x3D */
&s2n_dhe_rsa_with_aes_128_cbc_sha256, /* 0x00,0x67 */
&s2n_dhe_rsa_with_aes_256_cbc_sha256, /* 0x00,0x6B */
&s2n_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9C */
&s2n_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9D */
&s2n_dhe_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9E */
&s2n_dhe_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9F */
&s2n_tls13_aes_128_gcm_sha256, /* 0x13,0x01 */
&s2n_tls13_aes_256_gcm_sha384, /* 0x13,0x02 */
&s2n_tls13_chacha20_poly1305_sha256, /* 0x13,0x03 */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha, /* 0xC0,0x09 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha, /* 0xC0,0x0A */
&s2n_ecdhe_rsa_with_rc4_128_sha, /* 0xC0,0x11 */
&s2n_ecdhe_rsa_with_3des_ede_cbc_sha, /* 0xC0,0x12 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha, /* 0xC0,0x13 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha, /* 0xC0,0x14 */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha256, /* 0xC0,0x23 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha384, /* 0xC0,0x24 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha256, /* 0xC0,0x27 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha384, /* 0xC0,0x28 */
&s2n_ecdhe_ecdsa_with_aes_128_gcm_sha256, /* 0xC0,0x2B */
&s2n_ecdhe_ecdsa_with_aes_256_gcm_sha384, /* 0xC0,0x2C */
&s2n_ecdhe_rsa_with_aes_128_gcm_sha256, /* 0xC0,0x2F */
&s2n_ecdhe_rsa_with_aes_256_gcm_sha384, /* 0xC0,0x30 */
&s2n_ecdhe_rsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA8 */
&s2n_ecdhe_ecdsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA9 */
&s2n_dhe_rsa_with_chacha20_poly1305_sha256, /* 0xCC,0xAA */
&s2n_ecdhe_kyber_rsa_with_aes_256_gcm_sha384, /* 0xFF,0x0C */
};
/* All supported ciphers. Exposed for integration testing. */
const struct s2n_cipher_preferences cipher_preferences_test_all = {
.count = s2n_array_len(s2n_all_cipher_suites),
.suites = s2n_all_cipher_suites,
};
/* All TLS12 Cipher Suites */
static struct s2n_cipher_suite *s2n_all_tls12_cipher_suites[] = {
&s2n_rsa_with_rc4_128_md5, /* 0x00,0x04 */
&s2n_rsa_with_rc4_128_sha, /* 0x00,0x05 */
&s2n_rsa_with_3des_ede_cbc_sha, /* 0x00,0x0A */
&s2n_dhe_rsa_with_3des_ede_cbc_sha, /* 0x00,0x16 */
&s2n_rsa_with_aes_128_cbc_sha, /* 0x00,0x2F */
&s2n_dhe_rsa_with_aes_128_cbc_sha, /* 0x00,0x33 */
&s2n_rsa_with_aes_256_cbc_sha, /* 0x00,0x35 */
&s2n_dhe_rsa_with_aes_256_cbc_sha, /* 0x00,0x39 */
&s2n_rsa_with_aes_128_cbc_sha256, /* 0x00,0x3C */
&s2n_rsa_with_aes_256_cbc_sha256, /* 0x00,0x3D */
&s2n_dhe_rsa_with_aes_128_cbc_sha256, /* 0x00,0x67 */
&s2n_dhe_rsa_with_aes_256_cbc_sha256, /* 0x00,0x6B */
&s2n_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9C */
&s2n_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9D */
&s2n_dhe_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9E */
&s2n_dhe_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9F */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha, /* 0xC0,0x09 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha, /* 0xC0,0x0A */
&s2n_ecdhe_rsa_with_rc4_128_sha, /* 0xC0,0x11 */
&s2n_ecdhe_rsa_with_3des_ede_cbc_sha, /* 0xC0,0x12 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha, /* 0xC0,0x13 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha, /* 0xC0,0x14 */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha256, /* 0xC0,0x23 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha384, /* 0xC0,0x24 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha256, /* 0xC0,0x27 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha384, /* 0xC0,0x28 */
&s2n_ecdhe_ecdsa_with_aes_128_gcm_sha256, /* 0xC0,0x2B */
&s2n_ecdhe_ecdsa_with_aes_256_gcm_sha384, /* 0xC0,0x2C */
&s2n_ecdhe_rsa_with_aes_128_gcm_sha256, /* 0xC0,0x2F */
&s2n_ecdhe_rsa_with_aes_256_gcm_sha384, /* 0xC0,0x30 */
&s2n_ecdhe_rsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA8 */
&s2n_ecdhe_ecdsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA9 */
&s2n_dhe_rsa_with_chacha20_poly1305_sha256, /* 0xCC,0xAA */
&s2n_ecdhe_kyber_rsa_with_aes_256_gcm_sha384, /* 0xFF,0x0C */
};
const struct s2n_cipher_preferences cipher_preferences_test_all_tls12 = {
.count = s2n_array_len(s2n_all_tls12_cipher_suites),
.suites = s2n_all_tls12_cipher_suites,
};
/* All of the cipher suites that s2n can negotiate when in FIPS mode,
* in order of IANA value. Exposed for the "test_all_fips" cipher preference list.
*/
static struct s2n_cipher_suite *s2n_all_fips_cipher_suites[] = {
&s2n_rsa_with_3des_ede_cbc_sha, /* 0x00,0x0A */
&s2n_rsa_with_aes_128_cbc_sha, /* 0x00,0x2F */
&s2n_rsa_with_aes_256_cbc_sha, /* 0x00,0x35 */
&s2n_rsa_with_aes_128_cbc_sha256, /* 0x00,0x3C */
&s2n_rsa_with_aes_256_cbc_sha256, /* 0x00,0x3D */
&s2n_dhe_rsa_with_aes_128_cbc_sha256, /* 0x00,0x67 */
&s2n_dhe_rsa_with_aes_256_cbc_sha256, /* 0x00,0x6B */
&s2n_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9C */
&s2n_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9D */
&s2n_dhe_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9E */
&s2n_dhe_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9F */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha256, /* 0xC0,0x23 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha384, /* 0xC0,0x24 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha256, /* 0xC0,0x27 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha384, /* 0xC0,0x28 */
&s2n_ecdhe_ecdsa_with_aes_128_gcm_sha256, /* 0xC0,0x2B */
&s2n_ecdhe_ecdsa_with_aes_256_gcm_sha384, /* 0xC0,0x2C */
&s2n_ecdhe_rsa_with_aes_128_gcm_sha256, /* 0xC0,0x2F */
&s2n_ecdhe_rsa_with_aes_256_gcm_sha384, /* 0xC0,0x30 */
};
/* All supported FIPS ciphers. Exposed for integration testing. */
const struct s2n_cipher_preferences cipher_preferences_test_all_fips = {
.count = s2n_array_len(s2n_all_fips_cipher_suites),
.suites = s2n_all_fips_cipher_suites,
};
/* All of the ECDSA cipher suites that s2n can negotiate, in order of IANA
* value. Exposed for the "test_all_ecdsa" cipher preference list.
*/
static struct s2n_cipher_suite *s2n_all_ecdsa_cipher_suites[] = {
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha, /* 0xC0,0x09 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha, /* 0xC0,0x0A */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha256, /* 0xC0,0x23 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha384, /* 0xC0,0x24 */
&s2n_ecdhe_ecdsa_with_aes_128_gcm_sha256, /* 0xC0,0x2B */
&s2n_ecdhe_ecdsa_with_aes_256_gcm_sha384, /* 0xC0,0x2C */
&s2n_ecdhe_ecdsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA9 */
};
/* All supported ECDSA cipher suites. Exposed for integration testing. */
const struct s2n_cipher_preferences cipher_preferences_test_all_ecdsa = {
.count = s2n_array_len(s2n_all_ecdsa_cipher_suites),
.suites = s2n_all_ecdsa_cipher_suites,
};
/* All cipher suites that uses RSA key exchange. Exposed for unit or integration tests. */
static struct s2n_cipher_suite *s2n_all_rsa_kex_cipher_suites[] = {
&s2n_rsa_with_aes_128_cbc_sha, /* 0x00,0x2F */
&s2n_rsa_with_rc4_128_md5, /* 0x00,0x04 */
&s2n_rsa_with_rc4_128_sha, /* 0x00,0x05 */
&s2n_rsa_with_3des_ede_cbc_sha, /* 0x00,0x0A */
&s2n_rsa_with_aes_128_cbc_sha, /* 0x00,0x2F */
&s2n_rsa_with_aes_256_cbc_sha, /* 0x00,0x35 */
&s2n_rsa_with_aes_128_cbc_sha256, /* 0x00,0x3C */
&s2n_rsa_with_aes_256_cbc_sha256, /* 0x00,0x3D */
&s2n_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9C */
&s2n_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9D */
};
/* Cipher preferences with rsa key exchange. Exposed for unit and integration tests. */
const struct s2n_cipher_preferences cipher_preferences_test_all_rsa_kex = {
.count = s2n_array_len(s2n_all_rsa_kex_cipher_suites),
.suites = s2n_all_rsa_kex_cipher_suites,
};
/* All ECDSA cipher suites first, then the rest of the supported ciphers that s2n can negotiate.
* Exposed for the "test_ecdsa_priority" cipher preference list.
*/
static struct s2n_cipher_suite *s2n_ecdsa_priority_cipher_suites[] = {
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha, /* 0xC0,0x09 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha, /* 0xC0,0x0A */
&s2n_ecdhe_ecdsa_with_aes_128_cbc_sha256, /* 0xC0,0x23 */
&s2n_ecdhe_ecdsa_with_aes_256_cbc_sha384, /* 0xC0,0x24 */
&s2n_ecdhe_ecdsa_with_aes_128_gcm_sha256, /* 0xC0,0x2B */
&s2n_ecdhe_ecdsa_with_aes_256_gcm_sha384, /* 0xC0,0x2C */
&s2n_ecdhe_ecdsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA9 */
&s2n_rsa_with_rc4_128_md5, /* 0x00,0x04 */
&s2n_rsa_with_rc4_128_sha, /* 0x00,0x05 */
&s2n_rsa_with_3des_ede_cbc_sha, /* 0x00,0x0A */
&s2n_dhe_rsa_with_3des_ede_cbc_sha, /* 0x00,0x16 */
&s2n_rsa_with_aes_128_cbc_sha, /* 0x00,0x2F */
&s2n_dhe_rsa_with_aes_128_cbc_sha, /* 0x00,0x33 */
&s2n_rsa_with_aes_256_cbc_sha, /* 0x00,0x35 */
&s2n_dhe_rsa_with_aes_256_cbc_sha, /* 0x00,0x39 */
&s2n_rsa_with_aes_128_cbc_sha256, /* 0x00,0x3C */
&s2n_rsa_with_aes_256_cbc_sha256, /* 0x00,0x3D */
&s2n_dhe_rsa_with_aes_128_cbc_sha256, /* 0x00,0x67 */
&s2n_dhe_rsa_with_aes_256_cbc_sha256, /* 0x00,0x6B */
&s2n_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9C */
&s2n_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9D */
&s2n_dhe_rsa_with_aes_128_gcm_sha256, /* 0x00,0x9E */
&s2n_dhe_rsa_with_aes_256_gcm_sha384, /* 0x00,0x9F */
&s2n_ecdhe_rsa_with_rc4_128_sha, /* 0xC0,0x11 */
&s2n_ecdhe_rsa_with_3des_ede_cbc_sha, /* 0xC0,0x12 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha, /* 0xC0,0x13 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha, /* 0xC0,0x14 */
&s2n_ecdhe_rsa_with_aes_128_cbc_sha256, /* 0xC0,0x27 */
&s2n_ecdhe_rsa_with_aes_256_cbc_sha384, /* 0xC0,0x28 */
&s2n_ecdhe_rsa_with_aes_128_gcm_sha256, /* 0xC0,0x2F */
&s2n_ecdhe_rsa_with_aes_256_gcm_sha384, /* 0xC0,0x30 */
&s2n_ecdhe_rsa_with_chacha20_poly1305_sha256, /* 0xCC,0xA8 */
&s2n_dhe_rsa_with_chacha20_poly1305_sha256, /* 0xCC,0xAA */
};
/* All cipher suites, but with ECDSA priority. Exposed for integration testing. */
const struct s2n_cipher_preferences cipher_preferences_test_ecdsa_priority = {
.count = s2n_array_len(s2n_ecdsa_priority_cipher_suites),
.suites = s2n_ecdsa_priority_cipher_suites,
};
static struct s2n_cipher_suite *s2n_all_tls13_cipher_suites[] = {
&s2n_tls13_aes_128_gcm_sha256, /* 0x13,0x01 */
&s2n_tls13_aes_256_gcm_sha384, /* 0x13,0x02 */
&s2n_tls13_chacha20_poly1305_sha256, /* 0x13,0x03 */
};
const struct s2n_cipher_preferences cipher_preferences_test_all_tls13 = {
.count = s2n_array_len(s2n_all_tls13_cipher_suites),
.suites = s2n_all_tls13_cipher_suites,
};
static bool should_init_crypto = true;
static bool crypto_initialized = false;
int s2n_crypto_disable_init(void)
{
POSIX_ENSURE(!crypto_initialized, S2N_ERR_INITIALIZED);
should_init_crypto = false;
return S2N_SUCCESS;
}
/* Determines cipher suite availability and selects record algorithms */
int s2n_cipher_suites_init(void)
{
const int num_cipher_suites = s2n_array_len(s2n_all_cipher_suites);
for (int i = 0; i < num_cipher_suites; i++) {
struct s2n_cipher_suite *cur_suite = s2n_all_cipher_suites[i];
cur_suite->available = 0;
cur_suite->record_alg = NULL;
/* Find the highest priority supported record algorithm */
for (int j = 0; j < cur_suite->num_record_algs; j++) {
/* Can we use the record algorithm's cipher? Won't be available if the system CPU architecture
* doesn't support it or if the libcrypto lacks the feature. All hmac_algs are supported.
*/
if (cur_suite->all_record_algs[j]->cipher->is_available()) {
/* Found a supported record algorithm. Use it. */
cur_suite->available = 1;
cur_suite->record_alg = cur_suite->all_record_algs[j];
break;
}
}
/* Mark PQ cipher suites as unavailable if PQ is disabled */
if (s2n_kex_includes(cur_suite->key_exchange_alg, &s2n_kem) && !s2n_pq_is_enabled()) {
cur_suite->available = 0;
cur_suite->record_alg = NULL;
}
/* Initialize SSLv3 cipher suite if SSLv3 utilizes a different record algorithm */
if (cur_suite->sslv3_record_alg && cur_suite->sslv3_record_alg->cipher->is_available()) {
struct s2n_blob cur_suite_mem = { 0 };
POSIX_GUARD(s2n_blob_init(&cur_suite_mem, (uint8_t *) cur_suite, sizeof(struct s2n_cipher_suite)));
struct s2n_blob new_suite_mem = { 0 };
POSIX_GUARD(s2n_dup(&cur_suite_mem, &new_suite_mem));
struct s2n_cipher_suite *new_suite = (struct s2n_cipher_suite *) (void *) new_suite_mem.data;
new_suite->available = 1;
new_suite->record_alg = cur_suite->sslv3_record_alg;
cur_suite->sslv3_cipher_suite = new_suite;
} else {
cur_suite->sslv3_cipher_suite = cur_suite;
}
}
if (should_init_crypto) {
#if !S2N_OPENSSL_VERSION_AT_LEAST(1, 1, 0)
/*https://wiki.openssl.org/index.php/Manual:OpenSSL_add_all_algorithms(3)*/
OpenSSL_add_all_algorithms();
#else
OPENSSL_init_crypto(OPENSSL_INIT_LOAD_CRYPTO_STRINGS | OPENSSL_INIT_ADD_ALL_CIPHERS | OPENSSL_INIT_ADD_ALL_DIGESTS, NULL);
#endif
}
crypto_initialized = true;
return S2N_SUCCESS;
}
/* Reset any selected record algorithms */
S2N_RESULT s2n_cipher_suites_cleanup(void)
{
const int num_cipher_suites = sizeof(s2n_all_cipher_suites) / sizeof(struct s2n_cipher_suite *);
for (int i = 0; i < num_cipher_suites; i++) {
struct s2n_cipher_suite *cur_suite = s2n_all_cipher_suites[i];
cur_suite->available = 0;
cur_suite->record_alg = NULL;
/* Release custom SSLv3 cipher suites */
if (cur_suite->sslv3_cipher_suite != cur_suite) {
RESULT_GUARD_POSIX(s2n_free_object((uint8_t **) &cur_suite->sslv3_cipher_suite, sizeof(struct s2n_cipher_suite)));
}
cur_suite->sslv3_cipher_suite = NULL;
}
if (should_init_crypto) {
#if !S2N_OPENSSL_VERSION_AT_LEAST(1, 1, 0)
/*https://wiki.openssl.org/index.php/Manual:OpenSSL_add_all_algorithms(3)*/
EVP_cleanup();
/* per the reqs here https://www.openssl.org/docs/man1.1.0/crypto/OPENSSL_init_crypto.html we don't explicitly call
* cleanup in later versions */
#endif
}
return S2N_RESULT_OK;
}
S2N_RESULT s2n_cipher_suite_from_iana(const uint8_t *iana, size_t iana_len, struct s2n_cipher_suite **cipher_suite)
{
RESULT_ENSURE_REF(cipher_suite);
*cipher_suite = NULL;
RESULT_ENSURE_REF(iana);
RESULT_ENSURE_EQ(iana_len, S2N_TLS_CIPHER_SUITE_LEN);
int low = 0;
int top = s2n_array_len(s2n_all_cipher_suites) - 1;
/* Perform a textbook binary search */
while (low <= top) {
/* Check in the middle */
size_t mid = low + ((top - low) / 2);
int m = memcmp(s2n_all_cipher_suites[mid]->iana_value, iana, S2N_TLS_CIPHER_SUITE_LEN);
if (m == 0) {
*cipher_suite = s2n_all_cipher_suites[mid];
return S2N_RESULT_OK;
} else if (m > 0) {
top = mid - 1;
} else if (m < 0) {
low = mid + 1;
}
}
RESULT_BAIL(S2N_ERR_CIPHER_NOT_SUPPORTED);
}
int s2n_set_cipher_as_client(struct s2n_connection *conn, uint8_t wire[S2N_TLS_CIPHER_SUITE_LEN])
{
POSIX_ENSURE_REF(conn);
POSIX_ENSURE_REF(conn->secure);
POSIX_ENSURE_REF(conn->secure->cipher_suite);
const struct s2n_security_policy *security_policy;
POSIX_GUARD(s2n_connection_get_security_policy(conn, &security_policy));
POSIX_ENSURE_REF(security_policy);
/**
* Ensure that the wire cipher suite is contained in the security
* policy, and thus was offered by the client.
*
*= https://tools.ietf.org/rfc/rfc8446#4.1.3
*# A client which receives a
*# cipher suite that was not offered MUST abort the handshake with an
*# "illegal_parameter" alert.
*
*= https://tools.ietf.org/rfc/rfc8446#4.1.4
*# A client which receives a cipher suite that was not offered MUST
*# abort the handshake.
*
*= https://tools.ietf.org/rfc/rfc8446#4.1.4
*# Upon receipt of a HelloRetryRequest, the client MUST check the
*# legacy_version, legacy_session_id_echo, cipher_suite
**/
struct s2n_cipher_suite *cipher_suite = NULL;
for (size_t i = 0; i < security_policy->cipher_preferences->count; i++) {
const uint8_t *ours = security_policy->cipher_preferences->suites[i]->iana_value;
if (memcmp(wire, ours, S2N_TLS_CIPHER_SUITE_LEN) == 0) {
cipher_suite = security_policy->cipher_preferences->suites[i];
break;
}
}
POSIX_ENSURE(cipher_suite != NULL, S2N_ERR_CIPHER_NOT_SUPPORTED);
POSIX_ENSURE(cipher_suite->available, S2N_ERR_CIPHER_NOT_SUPPORTED);
/** Clients MUST verify
*= https://tools.ietf.org/rfc/rfc8446#section-4.2.11
*# that the server selected a cipher suite
*# indicating a Hash associated with the PSK
**/
if (conn->psk_params.chosen_psk) {
POSIX_ENSURE(cipher_suite->prf_alg == conn->psk_params.chosen_psk->hmac_alg,
S2N_ERR_CIPHER_NOT_SUPPORTED);
}
/**
*= https://tools.ietf.org/rfc/rfc8446#4.1.4
*# Upon receiving
*# the ServerHello, clients MUST check that the cipher suite supplied in
*# the ServerHello is the same as that in the HelloRetryRequest and
*# otherwise abort the handshake with an "illegal_parameter" alert.
**/
if (s2n_is_hello_retry_handshake(conn) && !s2n_is_hello_retry_message(conn)) {
POSIX_ENSURE(conn->secure->cipher_suite->iana_value == cipher_suite->iana_value, S2N_ERR_CIPHER_NOT_SUPPORTED);
return S2N_SUCCESS;
}
conn->secure->cipher_suite = cipher_suite;
/* For SSLv3 use SSLv3-specific ciphers */
if (conn->actual_protocol_version == S2N_SSLv3) {
conn->secure->cipher_suite = conn->secure->cipher_suite->sslv3_cipher_suite;
POSIX_ENSURE_REF(conn->secure->cipher_suite);
}
return 0;
}
static int s2n_wire_ciphers_contain(const uint8_t *match, const uint8_t *wire, uint32_t count, uint32_t cipher_suite_len)
{
for (size_t i = 0; i < count; i++) {
const uint8_t *theirs = wire + (i * cipher_suite_len) + (cipher_suite_len - S2N_TLS_CIPHER_SUITE_LEN);
if (!memcmp(match, theirs, S2N_TLS_CIPHER_SUITE_LEN)) {
return 1;
}
}
return 0;
}
bool s2n_cipher_suite_uses_chacha20_alg(struct s2n_cipher_suite *cipher_suite)
{
return cipher_suite && cipher_suite->record_alg && cipher_suite->record_alg->cipher == &s2n_chacha20_poly1305;
}
/* Iff the server has enabled allow_chacha20_boosting and the client has a chacha20 cipher suite as its most
* preferred cipher suite, then we have mutual chacha20 boosting support.
*/
static S2N_RESULT s2n_validate_chacha20_boosting(const struct s2n_cipher_preferences *cipher_preferences, const uint8_t *wire,
uint32_t cipher_suite_len)
{
RESULT_ENSURE_REF(cipher_preferences);
RESULT_ENSURE_REF(wire);
RESULT_ENSURE_EQ(cipher_preferences->allow_chacha20_boosting, true);
const uint8_t *clients_first_cipher_iana = wire + cipher_suite_len - S2N_TLS_CIPHER_SUITE_LEN;
struct s2n_cipher_suite *client_first_cipher_suite = NULL;
RESULT_GUARD(s2n_cipher_suite_from_iana(clients_first_cipher_iana, S2N_TLS_CIPHER_SUITE_LEN, &client_first_cipher_suite));
RESULT_ENSURE_REF(client_first_cipher_suite);
RESULT_ENSURE_EQ(s2n_cipher_suite_uses_chacha20_alg(client_first_cipher_suite), true);
return S2N_RESULT_OK;
}
static int s2n_set_cipher_as_server(struct s2n_connection *conn, uint8_t *wire, uint32_t count, uint32_t cipher_suite_len)
{
POSIX_ENSURE_REF(conn);
POSIX_ENSURE_REF(conn->secure);
uint8_t renegotiation_info_scsv[S2N_TLS_CIPHER_SUITE_LEN] = { TLS_EMPTY_RENEGOTIATION_INFO_SCSV };
struct s2n_cipher_suite *higher_vers_match = NULL;
struct s2n_cipher_suite *non_chacha20_match = NULL;
/* RFC 7507 - If client is attempting to negotiate a TLS Version that is lower than the highest supported server
* version, and the client cipher list contains TLS_FALLBACK_SCSV, then the server must abort the connection since
* TLS_FALLBACK_SCSV should only be present when the client previously failed to negotiate a higher TLS version.
*/
if (conn->client_protocol_version < conn->server_protocol_version) {
uint8_t fallback_scsv[S2N_TLS_CIPHER_SUITE_LEN] = { TLS_FALLBACK_SCSV };
if (s2n_wire_ciphers_contain(fallback_scsv, wire, count, cipher_suite_len)) {
POSIX_BAIL(S2N_ERR_FALLBACK_DETECTED);
}
}
if (s2n_wire_ciphers_contain(renegotiation_info_scsv, wire, count, cipher_suite_len)) {
/** For renegotiation handshakes:
*= https://tools.ietf.org/rfc/rfc5746#3.7
*# o When a ClientHello is received, the server MUST verify that it
*# does not contain the TLS_EMPTY_RENEGOTIATION_INFO_SCSV SCSV. If
*# the SCSV is present, the server MUST abort the handshake.
*/
POSIX_ENSURE(!s2n_handshake_is_renegotiation(conn), S2N_ERR_BAD_MESSAGE);
/** For initial handshakes:
*= https://tools.ietf.org/rfc/rfc5746#3.6
*# o When a ClientHello is received, the server MUST check if it
*# includes the TLS_EMPTY_RENEGOTIATION_INFO_SCSV SCSV. If it does,
*# set the secure_renegotiation flag to TRUE.
*/
conn->secure_renegotiation = 1;
}
const struct s2n_security_policy *security_policy;
POSIX_GUARD(s2n_connection_get_security_policy(conn, &security_policy));
const struct s2n_cipher_preferences *cipher_preferences = security_policy->cipher_preferences;
POSIX_ENSURE_REF(cipher_preferences);
bool try_chacha20_boosting = s2n_result_is_ok(s2n_validate_chacha20_boosting(cipher_preferences, wire, cipher_suite_len));
/*
* s2n only respects server preference order and chooses the server's
* most preferred mutually supported cipher suite.
*
* If chacha20 boosting is enabled, we prefer chacha20 cipher suites over all
* other cipher suites.
*
* If no mutually supported cipher suites are found, we choose one with a version
* too high for the current connection (higher_vers_match).
*/
for (size_t i = 0; i < cipher_preferences->count; i++) {
const uint8_t *ours = cipher_preferences->suites[i]->iana_value;
if (s2n_wire_ciphers_contain(ours, wire, count, cipher_suite_len)) {
/* We have a match */
struct s2n_cipher_suite *match = cipher_preferences->suites[i];
/* Never use TLS1.3 ciphers on a pre-TLS1.3 connection, and vice versa */
if ((conn->actual_protocol_version >= S2N_TLS13) != (match->minimum_required_tls_version >= S2N_TLS13)) {
continue;
}
/* If connection is for SSLv3, use SSLv3 version of suites */
if (conn->actual_protocol_version == S2N_SSLv3) {
match = match->sslv3_cipher_suite;
}
/* Skip the suite if we don't have an available implementation */
if (!match->available) {
continue;
}
/* Make sure the cipher is valid for available certs */
if (s2n_is_cipher_suite_valid_for_auth(conn, match) != S2N_SUCCESS) {
continue;
}
/* TLS 1.3 does not include key exchange in cipher suites */
if (match->minimum_required_tls_version < S2N_TLS13) {
/* If the kex is not supported continue to the next candidate */
bool kex_supported = false;
POSIX_GUARD_RESULT(s2n_kex_supported(match, conn, &kex_supported));
if (!kex_supported) {
continue;
}
/* If the kex is not configured correctly continue to the next candidate */
if (s2n_result_is_error(s2n_configure_kex(match, conn))) {
continue;
}
}
/**
*= https://tools.ietf.org/rfc/rfc8446#section-4.2.11
*# The server MUST ensure that it selects a compatible PSK
*# (if any) and cipher suite.
**/
if (conn->psk_params.chosen_psk != NULL) {
if (match->prf_alg != conn->psk_params.chosen_psk->hmac_alg) {
continue;
}
}
/* Don't immediately choose a cipher the connection shouldn't be able to support */
if (conn->actual_protocol_version < match->minimum_required_tls_version) {
if (!higher_vers_match) {
higher_vers_match = match;
}
continue;
}
/* The server and client have chacha20 boosting support enabled AND the server identified a negotiable match */
if (try_chacha20_boosting) {
if (s2n_cipher_suite_uses_chacha20_alg(match)) {
conn->secure->cipher_suite = match;
return S2N_SUCCESS;
}
/* Save the valid non-chacha20 match in case no valid chacha20 match is found */
if (!non_chacha20_match) {
non_chacha20_match = match;
}
continue;
}
conn->secure->cipher_suite = match;
return S2N_SUCCESS;
}
}
if (non_chacha20_match) {
conn->secure->cipher_suite = non_chacha20_match;
return S2N_SUCCESS;
}
/* Settle for a cipher with a higher required proto version, if it was set */
if (higher_vers_match) {
conn->secure->cipher_suite = higher_vers_match;
return S2N_SUCCESS;
}
POSIX_BAIL(S2N_ERR_CIPHER_NOT_SUPPORTED);
}
int s2n_set_cipher_as_sslv2_server(struct s2n_connection *conn, uint8_t *wire, uint16_t count)
{
return s2n_set_cipher_as_server(conn, wire, count, S2N_SSLv2_CIPHER_SUITE_LEN);
}
int s2n_set_cipher_as_tls_server(struct s2n_connection *conn, uint8_t *wire, uint16_t count)
{
return s2n_set_cipher_as_server(conn, wire, count, S2N_TLS_CIPHER_SUITE_LEN);
}
bool s2n_cipher_suite_requires_ecc_extension(struct s2n_cipher_suite *cipher)
{
if (!cipher) {
return false;
}
/* TLS1.3 does not include key exchange algorithms in its cipher suites,
* but the elliptic curves extension is always required. */
if (cipher->minimum_required_tls_version >= S2N_TLS13) {
return true;
}
if (s2n_kex_includes(cipher->key_exchange_alg, &s2n_ecdhe)) {
return true;
}
return false;
}
bool s2n_cipher_suite_requires_pq_extension(struct s2n_cipher_suite *cipher)
{
if (!cipher) {
return false;
}
if (s2n_kex_includes(cipher->key_exchange_alg, &s2n_kem)) {
return true;
}
return false;
}
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