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feat: introduce s2n_key_material for handling key material info (aws#…
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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. | ||
*/ | ||
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#include "s2n_test.h" | ||
#include "testlib/s2n_testlib.h" | ||
#include "tls/s2n_prf.h" | ||
#include "utils/s2n_random.h" | ||
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static S2N_RESULT s2n_test_validate_key_material(struct s2n_key_material *key_material, | ||
struct s2n_blob *test_data_blob, uint8_t mac_size, uint8_t key_size, uint8_t iv_size) | ||
{ | ||
/* confirm that the data is copied to key_material */ | ||
RESULT_ENSURE_EQ(test_data_blob->size, sizeof(key_material->key_block)); | ||
RESULT_ENSURE_EQ(memcmp(test_data_blob->data, key_material->key_block, test_data_blob->size), 0); | ||
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struct s2n_stuffer test_data_stuffer = { 0 }; | ||
RESULT_GUARD_POSIX(s2n_stuffer_init_written(&test_data_stuffer, test_data_blob)); | ||
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/* test that its possible to access data from s2n_key_material */ | ||
/* client MAC */ | ||
uint8_t *test_ptr = s2n_stuffer_raw_read(&test_data_stuffer, mac_size); | ||
RESULT_ENSURE_REF(test_ptr); | ||
RESULT_ENSURE_EQ(memcmp(test_ptr, key_material->client_mac.data, mac_size), 0); | ||
/* server MAC */ | ||
test_ptr = s2n_stuffer_raw_read(&test_data_stuffer, mac_size); | ||
RESULT_ENSURE_REF(test_ptr); | ||
RESULT_ENSURE_EQ(memcmp(test_ptr, key_material->server_mac.data, mac_size), 0); | ||
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/* client KEY */ | ||
test_ptr = s2n_stuffer_raw_read(&test_data_stuffer, key_size); | ||
RESULT_ENSURE_REF(test_ptr); | ||
RESULT_ENSURE_EQ(memcmp(test_ptr, key_material->client_key.data, key_size), 0); | ||
/* server KEY */ | ||
test_ptr = s2n_stuffer_raw_read(&test_data_stuffer, key_size); | ||
RESULT_ENSURE_REF(test_ptr); | ||
RESULT_ENSURE_EQ(memcmp(test_ptr, key_material->server_key.data, key_size), 0); | ||
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/* client IV */ | ||
test_ptr = s2n_stuffer_raw_read(&test_data_stuffer, iv_size); | ||
RESULT_ENSURE_REF(test_ptr); | ||
RESULT_ENSURE_EQ(memcmp(test_ptr, key_material->client_iv.data, iv_size), 0); | ||
/* server IV */ | ||
test_ptr = s2n_stuffer_raw_read(&test_data_stuffer, iv_size); | ||
RESULT_ENSURE_REF(test_ptr); | ||
RESULT_ENSURE_EQ(memcmp(test_ptr, key_material->server_iv.data, iv_size), 0); | ||
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return S2N_RESULT_OK; | ||
} | ||
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int main(int argc, char **argv) | ||
{ | ||
BEGIN_TEST(); | ||
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/* prepare test data */ | ||
uint8_t test_data[S2N_MAX_KEY_BLOCK_LEN] = { 0 }; | ||
struct s2n_blob test_data_blob = { 0 }; | ||
EXPECT_SUCCESS(s2n_blob_init(&test_data_blob, test_data, sizeof(test_data))); | ||
EXPECT_OK(s2n_get_public_random_data(&test_data_blob)); | ||
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/* fuzz s2n_key_material_init with different mac, key, iv sizes */ | ||
{ | ||
for (uint8_t mac_size = 0; mac_size < SHA512_DIGEST_LENGTH; mac_size++) { | ||
for (uint8_t key_size = 0; key_size < S2N_TLS_AES_256_GCM_KEY_LEN; key_size++) { | ||
for (uint8_t iv_size = 0; iv_size < S2N_TLS_MAX_IV_LEN; iv_size++) { | ||
if ((mac_size * 2 + key_size * 2 + iv_size * 2 > S2N_MAX_KEY_BLOCK_LEN)) { | ||
continue; | ||
} | ||
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DEFER_CLEANUP(struct s2n_connection *conn = s2n_connection_new(S2N_CLIENT), | ||
s2n_connection_ptr_free); | ||
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/* test varying size of mac, key and iv */ | ||
conn->actual_protocol_version = S2N_TLS10; | ||
struct s2n_cipher temp_cipher = { | ||
.type = S2N_COMPOSITE, | ||
.key_material_size = key_size, | ||
.io.comp = { | ||
/* interpreted as iv size for composite ciphers.. which makes | ||
* it easy for testing */ | ||
.block_size = iv_size, | ||
.mac_key_size = mac_size, | ||
}, | ||
}; | ||
struct s2n_record_algorithm temp_record_alg = { | ||
.cipher = &temp_cipher, | ||
}; | ||
struct s2n_cipher_suite temp_cipher_suite = { | ||
.record_alg = &temp_record_alg, | ||
}; | ||
conn->secure->cipher_suite = &temp_cipher_suite; | ||
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/* init s2n_key_material */ | ||
struct s2n_key_material key_material = { 0 }; | ||
EXPECT_OK(s2n_key_material_init(&key_material, conn)); | ||
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/* assert that sizes match */ | ||
EXPECT_EQUAL(key_material.client_mac.size, mac_size); | ||
EXPECT_EQUAL(key_material.client_key.size, key_size); | ||
EXPECT_EQUAL(key_material.client_iv.size, iv_size); | ||
EXPECT_EQUAL(key_material.server_mac.size, mac_size); | ||
EXPECT_EQUAL(key_material.server_key.size, key_size); | ||
EXPECT_EQUAL(key_material.server_iv.size, iv_size); | ||
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/* copy data into key_material and validate accessing key_material is sound */ | ||
EXPECT_EQUAL(sizeof(key_material.key_block), sizeof(test_data)); | ||
POSIX_CHECKED_MEMCPY(key_material.key_block, test_data, sizeof(key_material.key_block)); | ||
EXPECT_OK(s2n_test_validate_key_material(&key_material, &test_data_blob, mac_size, key_size, iv_size)); | ||
} | ||
} | ||
} | ||
} | ||
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/* confirm that s2n_key_material can correctly handle all cipher suites */ | ||
{ | ||
for (size_t i = 0; i < cipher_preferences_test_all.count; i++) { | ||
DEFER_CLEANUP(struct s2n_connection *conn = s2n_connection_new(S2N_CLIENT), | ||
s2n_connection_ptr_free); | ||
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struct s2n_cipher_suite *cipher_suite = cipher_preferences_test_all.suites[i]; | ||
if (!cipher_suite->available) { | ||
continue; | ||
} | ||
conn->secure->cipher_suite = cipher_suite; | ||
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/* init s2n_key_material */ | ||
struct s2n_key_material key_material = { 0 }; | ||
EXPECT_OK(s2n_key_material_init(&key_material, conn)); | ||
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/* copy data into key_material and validate accessing key_material is sound */ | ||
EXPECT_EQUAL(sizeof(key_material.key_block), sizeof(test_data)); | ||
POSIX_CHECKED_MEMCPY(key_material.key_block, test_data, sizeof(key_material.key_block)); | ||
/* test that its possible to access mac, key and iv correctly from s2n_key_material */ | ||
EXPECT_OK(s2n_test_validate_key_material( | ||
&key_material, | ||
&test_data_blob, | ||
key_material.client_mac.size, | ||
key_material.client_key.size, | ||
key_material.client_iv.size)); | ||
} | ||
} | ||
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/* AEAD cipher | ||
* IV size should be the same regardless of protocol version | ||
*/ | ||
{ | ||
DEFER_CLEANUP(struct s2n_connection *conn = s2n_connection_new(S2N_CLIENT), | ||
s2n_connection_ptr_free); | ||
conn->secure->cipher_suite = &s2n_tls13_aes_128_gcm_sha256; | ||
EXPECT_EQUAL(conn->secure->cipher_suite->record_alg->cipher->type, S2N_AEAD); | ||
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struct s2n_key_material key_material = { 0 }; | ||
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uint32_t mac = 0; | ||
uint32_t key = S2N_TLS_AES_128_GCM_KEY_LEN; | ||
uint32_t iv = S2N_TLS13_FIXED_IV_LEN; | ||
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/* initialize s2n_key_material */ | ||
conn->actual_protocol_version = S2N_TLS10; | ||
EXPECT_OK(s2n_key_material_init(&key_material, conn)); | ||
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EXPECT_EQUAL(key_material.client_mac.size, mac); | ||
EXPECT_EQUAL(key_material.client_key.size, key); | ||
EXPECT_EQUAL(key_material.client_iv.size, iv); | ||
EXPECT_EQUAL(key_material.server_mac.size, mac); | ||
EXPECT_EQUAL(key_material.server_key.size, key); | ||
EXPECT_EQUAL(key_material.server_iv.size, iv); | ||
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/* re-initialize s2n_key_material */ | ||
conn->actual_protocol_version = S2N_TLS11; | ||
EXPECT_OK(s2n_key_material_init(&key_material, conn)); | ||
/* assert same IV size regardless of protocol version */ | ||
EXPECT_EQUAL(key_material.client_mac.size, mac); | ||
EXPECT_EQUAL(key_material.client_key.size, key); | ||
EXPECT_EQUAL(key_material.client_iv.size, iv); | ||
EXPECT_EQUAL(key_material.server_mac.size, mac); | ||
EXPECT_EQUAL(key_material.server_key.size, key); | ||
EXPECT_EQUAL(key_material.server_iv.size, iv); | ||
} | ||
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/* NON AEAD cipher | ||
* IV size depends on protocol version | ||
*/ | ||
{ | ||
DEFER_CLEANUP(struct s2n_connection *conn = s2n_connection_new(S2N_CLIENT), | ||
s2n_connection_ptr_free); | ||
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conn->secure->cipher_suite = &s2n_rsa_with_aes_128_cbc_sha256; | ||
const struct s2n_cipher *cipher = conn->secure->cipher_suite->record_alg->cipher; | ||
/* assert that the cipher chosen is non AEAD */ | ||
EXPECT_TRUE(cipher->type == S2N_COMPOSITE || cipher->type == S2N_CBC); | ||
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struct s2n_key_material key_material = { 0 }; | ||
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uint32_t mac = SHA256_DIGEST_LENGTH; | ||
uint32_t key = S2N_TLS_AES_128_GCM_KEY_LEN; | ||
uint32_t iv = 16; | ||
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/* initialize s2n_key_material */ | ||
conn->actual_protocol_version = S2N_TLS10; | ||
EXPECT_OK(s2n_key_material_init(&key_material, conn)); | ||
/* assert IV of non 0 if protocol version <= S2N_TLS10 */ | ||
EXPECT_EQUAL(key_material.client_mac.size, mac); | ||
EXPECT_EQUAL(key_material.client_key.size, key); | ||
EXPECT_EQUAL(key_material.client_iv.size, iv); | ||
EXPECT_EQUAL(key_material.server_mac.size, mac); | ||
EXPECT_EQUAL(key_material.server_key.size, key); | ||
EXPECT_EQUAL(key_material.server_iv.size, iv); | ||
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/* re-initialize s2n_key_material */ | ||
conn->actual_protocol_version = S2N_TLS11; | ||
EXPECT_OK(s2n_key_material_init(&key_material, conn)); | ||
/* assert IV of size == 0 if protocol version > S2N_TLS10 */ | ||
iv = 0; | ||
EXPECT_EQUAL(key_material.client_mac.size, mac); | ||
EXPECT_EQUAL(key_material.client_key.size, key); | ||
EXPECT_EQUAL(key_material.client_iv.size, iv); | ||
EXPECT_EQUAL(key_material.server_mac.size, mac); | ||
EXPECT_EQUAL(key_material.server_key.size, key); | ||
EXPECT_EQUAL(key_material.server_iv.size, iv); | ||
} | ||
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END_TEST(); | ||
} |
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