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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 "tls/s2n_kem_preferences.h"
#include "tls/s2n_kem.h"
const struct s2n_kem *pq_kems_r3_2021_05[] = {
/* Round 3 Algorithms */
&s2n_kyber_512_r3,
};
const struct s2n_kem_group *pq_kem_groups_r3_2021_05[] = {
&s2n_x25519_kyber_512_r3,
&s2n_secp256r1_kyber_512_r3,
};
const struct s2n_kem_group *pq_kem_groups_r3_2023_06[] = {
&s2n_secp256r1_kyber_768_r3,
&s2n_x25519_kyber_768_r3,
&s2n_secp384r1_kyber_768_r3,
&s2n_secp521r1_kyber_1024_r3,
&s2n_secp256r1_kyber_512_r3,
&s2n_x25519_kyber_512_r3,
};
const struct s2n_kem_group *pq_kem_groups_r3_2023_12[] = {
&s2n_secp256r1_kyber_768_r3,
&s2n_secp384r1_kyber_768_r3,
&s2n_secp521r1_kyber_1024_r3,
&s2n_secp256r1_kyber_512_r3,
};
/* Includes only IETF standard KEM Groups. */
const struct s2n_kem_group *pq_kem_groups_ietf_2024_10[] = {
&s2n_x25519_mlkem_768,
&s2n_secp256r1_mlkem_768,
};
/* Includes both IETF standard KEM Groups, and earlier draft standards with Kyber. */
const struct s2n_kem_group *pq_kem_groups_mixed_2024_10[] = {
&s2n_x25519_mlkem_768,
&s2n_secp256r1_mlkem_768,
&s2n_secp256r1_kyber_768_r3,
&s2n_x25519_kyber_768_r3,
&s2n_secp384r1_kyber_768_r3,
&s2n_secp521r1_kyber_1024_r3,
&s2n_secp256r1_kyber_512_r3,
&s2n_x25519_kyber_512_r3,
};
const struct s2n_kem_preferences kem_preferences_pq_tls_1_0_2021_05 = {
.kem_count = s2n_array_len(pq_kems_r3_2021_05),
.kems = pq_kems_r3_2021_05,
.tls13_kem_group_count = s2n_array_len(pq_kem_groups_r3_2021_05),
.tls13_kem_groups = pq_kem_groups_r3_2021_05,
.tls13_pq_hybrid_draft_revision = 0
};
const struct s2n_kem_preferences kem_preferences_pq_tls_1_0_2023_01 = {
.kem_count = s2n_array_len(pq_kems_r3_2021_05),
.kems = pq_kems_r3_2021_05,
.tls13_kem_group_count = s2n_array_len(pq_kem_groups_r3_2021_05),
.tls13_kem_groups = pq_kem_groups_r3_2021_05,
.tls13_pq_hybrid_draft_revision = 5
};
/* TLS 1.3 specifies KEMS via SupportedGroups extension, not TLS 1.2's KEM-specific extension. */
const struct s2n_kem_preferences kem_preferences_pq_tls_1_3_2023_06 = {
.kem_count = 0,
.kems = NULL,
.tls13_kem_group_count = s2n_array_len(pq_kem_groups_r3_2023_06),
.tls13_kem_groups = pq_kem_groups_r3_2023_06,
.tls13_pq_hybrid_draft_revision = 5
};
/* Same as kem_preferences_pq_tls_1_3_2023_06, but without x25519 */
const struct s2n_kem_preferences kem_preferences_pq_tls_1_3_2023_12 = {
.kem_count = 0,
.kems = NULL,
.tls13_kem_group_count = s2n_array_len(pq_kem_groups_r3_2023_12),
.tls13_kem_groups = pq_kem_groups_r3_2023_12,
.tls13_pq_hybrid_draft_revision = 5
};
const struct s2n_kem_preferences kem_preferences_pq_tls_1_3_ietf_2024_10 = {
.kem_count = 0,
.kems = NULL,
.tls13_kem_group_count = s2n_array_len(pq_kem_groups_ietf_2024_10),
.tls13_kem_groups = pq_kem_groups_ietf_2024_10,
.tls13_pq_hybrid_draft_revision = 5
};
const struct s2n_kem_preferences kem_preferences_pq_tls_1_3_mixed_2024_10 = {
.kem_count = 0,
.kems = NULL,
.tls13_kem_group_count = s2n_array_len(pq_kem_groups_mixed_2024_10),
.tls13_kem_groups = pq_kem_groups_mixed_2024_10,
.tls13_pq_hybrid_draft_revision = 5
};
const struct s2n_kem_preferences kem_preferences_all = {
.kem_count = s2n_array_len(pq_kems_r3_2021_05),
.kems = pq_kems_r3_2021_05,
.tls13_kem_group_count = S2N_KEM_GROUPS_COUNT,
.tls13_kem_groups = ALL_SUPPORTED_KEM_GROUPS,
.tls13_pq_hybrid_draft_revision = 5
};
const struct s2n_kem_preferences kem_preferences_null = {
.kem_count = 0,
.kems = NULL,
.tls13_kem_group_count = 0,
.tls13_kem_groups = NULL,
.tls13_pq_hybrid_draft_revision = 0
};
/* Determines if query_iana_id corresponds to a tls13_kem_group for these KEM preferences. */
bool s2n_kem_preferences_includes_tls13_kem_group(const struct s2n_kem_preferences *kem_preferences,
uint16_t query_iana_id)
{
if (kem_preferences == NULL) {
return false;
}
for (size_t i = 0; i < kem_preferences->tls13_kem_group_count; i++) {
if (query_iana_id == kem_preferences->tls13_kem_groups[i]->iana_id) {
return true;
}
}
return false;
}
/* Whether the client must include the length prefix in the PQ TLS 1.3 KEM KeyShares that it sends. Draft 0 of
* the PQ TLS 1.3 standard required length prefixing, and drafts 1-5 removed this length prefix. To not break
* backwards compatibility, we check what revision of the draft standard is configured to determine whether to send it. */
bool s2n_tls13_client_must_use_hybrid_kem_length_prefix(const struct s2n_kem_preferences *kem_pref)
{
return kem_pref && (kem_pref->tls13_pq_hybrid_draft_revision == 0);
}
S2N_RESULT s2n_kem_preferences_groups_available(const struct s2n_kem_preferences *kem_preferences, uint32_t *groups_available)
{
RESULT_ENSURE_REF(kem_preferences);
RESULT_ENSURE_REF(groups_available);
uint32_t count = 0;
for (int i = 0; i < kem_preferences->tls13_kem_group_count; i++) {
if (s2n_kem_group_is_available(kem_preferences->tls13_kem_groups[i])) {
count++;
}
}
*groups_available = count;
return S2N_RESULT_OK;
}
const struct s2n_kem_group *s2n_kem_preferences_get_highest_priority_group(const struct s2n_kem_preferences *kem_preferences)
{
PTR_ENSURE_REF(kem_preferences);
for (size_t i = 0; i < kem_preferences->tls13_kem_group_count; i++) {
if (s2n_kem_group_is_available(kem_preferences->tls13_kem_groups[i])) {
return kem_preferences->tls13_kem_groups[i];
}
}
return NULL;
}
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