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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 <strings.h>
#include <time.h>
#include "api/unstable/npn.h"
#include "crypto/s2n_certificate.h"
#include "crypto/s2n_fips.h"
#include "crypto/s2n_hkdf.h"
#include "error/s2n_errno.h"
#include "tls/s2n_cipher_preferences.h"
#include "tls/s2n_internal.h"
#include "tls/s2n_ktls.h"
#include "tls/s2n_security_policies.h"
#include "tls/s2n_tls13.h"
#include "utils/s2n_blob.h"
#include "utils/s2n_map.h"
#include "utils/s2n_safety.h"
#if defined(CLOCK_MONOTONIC_RAW)
#define S2N_CLOCK_HW CLOCK_MONOTONIC_RAW
#else
#define S2N_CLOCK_HW CLOCK_MONOTONIC
#endif
#define S2N_CLOCK_SYS CLOCK_REALTIME
static int monotonic_clock(void *data, uint64_t *nanoseconds)
{
struct timespec current_time = { 0 };
POSIX_GUARD(clock_gettime(S2N_CLOCK_HW, ¤t_time));
*nanoseconds = (uint64_t) current_time.tv_sec * 1000000000ull;
*nanoseconds += current_time.tv_nsec;
return 0;
}
static int wall_clock(void *data, uint64_t *nanoseconds)
{
struct timespec current_time = { 0 };
POSIX_GUARD(clock_gettime(S2N_CLOCK_SYS, ¤t_time));
*nanoseconds = (uint64_t) current_time.tv_sec * 1000000000ull;
*nanoseconds += current_time.tv_nsec;
return 0;
}
static struct s2n_config s2n_default_config = { 0 };
static struct s2n_config s2n_default_fips_config = { 0 };
static struct s2n_config s2n_default_tls13_config = { 0 };
static int s2n_config_setup_default(struct s2n_config *config)
{
POSIX_GUARD(s2n_config_set_cipher_preferences(config, "default"));
return S2N_SUCCESS;
}
static int s2n_config_setup_tls13(struct s2n_config *config)
{
POSIX_GUARD(s2n_config_set_cipher_preferences(config, "default_tls13"));
return S2N_SUCCESS;
}
static int s2n_config_setup_fips(struct s2n_config *config)
{
POSIX_GUARD(s2n_config_set_cipher_preferences(config, "default_fips"));
return S2N_SUCCESS;
}
static int s2n_config_init(struct s2n_config *config)
{
config->wall_clock = wall_clock;
config->monotonic_clock = monotonic_clock;
config->ct_type = S2N_CT_SUPPORT_NONE;
config->mfl_code = S2N_TLS_MAX_FRAG_LEN_EXT_NONE;
config->alert_behavior = S2N_ALERT_FAIL_ON_WARNINGS;
config->session_state_lifetime_in_nanos = S2N_STATE_LIFETIME_IN_NANOS;
config->encrypt_decrypt_key_lifetime_in_nanos = S2N_TICKET_ENCRYPT_DECRYPT_KEY_LIFETIME_IN_NANOS;
config->decrypt_key_lifetime_in_nanos = S2N_TICKET_DECRYPT_KEY_LIFETIME_IN_NANOS;
config->async_pkey_validation_mode = S2N_ASYNC_PKEY_VALIDATION_FAST;
/* By default, only the client will authenticate the Server's Certificate. The Server does not request or
* authenticate any client certificates. */
config->client_cert_auth_type = S2N_CERT_AUTH_NONE;
config->check_ocsp = 1;
config->client_hello_cb_mode = S2N_CLIENT_HELLO_CB_BLOCKING;
POSIX_GUARD(s2n_config_setup_default(config));
if (s2n_use_default_tls13_config()) {
POSIX_GUARD(s2n_config_setup_tls13(config));
} else if (s2n_is_in_fips_mode()) {
POSIX_GUARD(s2n_config_setup_fips(config));
}
POSIX_GUARD_PTR(config->domain_name_to_cert_map = s2n_map_new_with_initial_capacity(1));
POSIX_GUARD_RESULT(s2n_map_complete(config->domain_name_to_cert_map));
s2n_x509_trust_store_init_empty(&config->trust_store);
return 0;
}
static int s2n_config_cleanup(struct s2n_config *config)
{
s2n_x509_trust_store_wipe(&config->trust_store);
config->check_ocsp = 0;
POSIX_GUARD(s2n_config_free_session_ticket_keys(config));
POSIX_GUARD(s2n_config_free_cert_chain_and_key(config));
POSIX_GUARD(s2n_config_free_dhparams(config));
POSIX_GUARD(s2n_free(&config->application_protocols));
POSIX_GUARD_RESULT(s2n_map_free(config->domain_name_to_cert_map));
return 0;
}
static int s2n_config_update_domain_name_to_cert_map(struct s2n_config *config,
struct s2n_blob *name,
struct s2n_cert_chain_and_key *cert_key_pair)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE_REF(name);
struct s2n_map *domain_name_to_cert_map = config->domain_name_to_cert_map;
/* s2n_map does not allow zero-size key */
if (name->size == 0) {
return 0;
}
s2n_pkey_type cert_type = s2n_cert_chain_and_key_get_pkey_type(cert_key_pair);
struct s2n_blob s2n_map_value = { 0 };
bool key_found = false;
POSIX_GUARD_RESULT(s2n_map_lookup(domain_name_to_cert_map, name, &s2n_map_value, &key_found));
if (!key_found) {
struct certs_by_type value = { { 0 } };
value.certs[cert_type] = cert_key_pair;
s2n_map_value.data = (uint8_t *) &value;
s2n_map_value.size = sizeof(struct certs_by_type);
POSIX_GUARD_RESULT(s2n_map_unlock(domain_name_to_cert_map));
POSIX_GUARD_RESULT(s2n_map_add(domain_name_to_cert_map, name, &s2n_map_value));
POSIX_GUARD_RESULT(s2n_map_complete(domain_name_to_cert_map));
} else {
struct certs_by_type *value = (void *) s2n_map_value.data;
if (value->certs[cert_type] == NULL) {
value->certs[cert_type] = cert_key_pair;
} else if (config->cert_tiebreak_cb) {
/* There's an existing certificate for this (domain_name, auth_method).
* Run the application's tiebreaking callback to decide which cert should be used.
* An application may have some context specific logic to resolve ties that are based
* on factors like trust, expiry, etc.
*/
struct s2n_cert_chain_and_key *winner = config->cert_tiebreak_cb(
value->certs[cert_type],
cert_key_pair,
name->data,
name->size);
if (winner) {
value->certs[cert_type] = winner;
}
}
}
return 0;
}
static int s2n_config_build_domain_name_to_cert_map(struct s2n_config *config, struct s2n_cert_chain_and_key *cert_key_pair)
{
uint32_t cn_len = 0;
POSIX_GUARD_RESULT(s2n_array_num_elements(cert_key_pair->cn_names, &cn_len));
uint32_t san_len = 0;
POSIX_GUARD_RESULT(s2n_array_num_elements(cert_key_pair->san_names, &san_len));
if (san_len == 0) {
for (uint32_t i = 0; i < cn_len; i++) {
struct s2n_blob *cn_name = NULL;
POSIX_GUARD_RESULT(s2n_array_get(cert_key_pair->cn_names, i, (void **) &cn_name));
POSIX_GUARD(s2n_config_update_domain_name_to_cert_map(config, cn_name, cert_key_pair));
}
} else {
for (uint32_t i = 0; i < san_len; i++) {
struct s2n_blob *san_name = NULL;
POSIX_GUARD_RESULT(s2n_array_get(cert_key_pair->san_names, i, (void **) &san_name));
POSIX_GUARD(s2n_config_update_domain_name_to_cert_map(config, san_name, cert_key_pair));
}
}
return 0;
}
struct s2n_config *s2n_fetch_default_config(void)
{
if (s2n_use_default_tls13_config()) {
return &s2n_default_tls13_config;
}
if (s2n_is_in_fips_mode()) {
return &s2n_default_fips_config;
}
return &s2n_default_config;
}
int s2n_config_set_unsafe_for_testing(struct s2n_config *config)
{
POSIX_ENSURE(s2n_in_test(), S2N_ERR_NOT_IN_TEST);
config->client_cert_auth_type = S2N_CERT_AUTH_NONE;
config->check_ocsp = 0;
config->disable_x509_validation = 1;
return S2N_SUCCESS;
}
int s2n_config_defaults_init(void)
{
/* Set up fips defaults */
if (s2n_is_in_fips_mode()) {
POSIX_GUARD(s2n_config_init(&s2n_default_fips_config));
POSIX_GUARD(s2n_config_setup_fips(&s2n_default_fips_config));
POSIX_GUARD(s2n_config_load_system_certs(&s2n_default_fips_config));
} else {
/* Set up default */
POSIX_GUARD(s2n_config_init(&s2n_default_config));
POSIX_GUARD(s2n_config_setup_default(&s2n_default_config));
POSIX_GUARD(s2n_config_load_system_certs(&s2n_default_config));
}
/* Set up TLS 1.3 defaults */
POSIX_GUARD(s2n_config_init(&s2n_default_tls13_config));
POSIX_GUARD(s2n_config_setup_tls13(&s2n_default_tls13_config));
POSIX_GUARD(s2n_config_load_system_certs(&s2n_default_tls13_config));
return S2N_SUCCESS;
}
void s2n_wipe_static_configs(void)
{
s2n_config_cleanup(&s2n_default_fips_config);
s2n_config_cleanup(&s2n_default_config);
s2n_config_cleanup(&s2n_default_tls13_config);
}
int s2n_config_load_system_certs(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
struct s2n_x509_trust_store *store = &config->trust_store;
POSIX_ENSURE(!store->loaded_system_certs, S2N_ERR_X509_TRUST_STORE);
if (!store->trust_store) {
store->trust_store = X509_STORE_new();
POSIX_ENSURE_REF(store->trust_store);
}
int err_code = X509_STORE_set_default_paths(store->trust_store);
if (!err_code) {
s2n_x509_trust_store_wipe(store);
POSIX_BAIL(S2N_ERR_X509_TRUST_STORE);
}
store->loaded_system_certs = true;
return S2N_SUCCESS;
}
struct s2n_config *s2n_config_new_minimal(void)
{
struct s2n_blob allocator = { 0 };
struct s2n_config *new_config;
PTR_GUARD_POSIX(s2n_alloc(&allocator, sizeof(struct s2n_config)));
PTR_GUARD_POSIX(s2n_blob_zero(&allocator));
new_config = (struct s2n_config *) (void *) allocator.data;
if (s2n_config_init(new_config) != S2N_SUCCESS) {
s2n_free(&allocator);
return NULL;
}
return new_config;
}
struct s2n_config *s2n_config_new(void)
{
struct s2n_config *new_config = s2n_config_new_minimal();
PTR_ENSURE_REF(new_config);
/* For backwards compatibility, s2n_config_new loads system certs by default. */
PTR_GUARD_POSIX(s2n_config_load_system_certs(new_config));
return new_config;
}
static int s2n_config_store_ticket_key_comparator(const void *a, const void *b)
{
if (((const struct s2n_ticket_key *) a)->intro_timestamp >= ((const struct s2n_ticket_key *) b)->intro_timestamp) {
return S2N_GREATER_OR_EQUAL;
} else {
return S2N_LESS_THAN;
}
}
static int s2n_verify_unique_ticket_key_comparator(const void *a, const void *b)
{
return memcmp(a, b, SHA_DIGEST_LENGTH);
}
int s2n_config_init_session_ticket_keys(struct s2n_config *config)
{
if (config->ticket_keys == NULL) {
POSIX_ENSURE_REF(config->ticket_keys = s2n_set_new(sizeof(struct s2n_ticket_key), s2n_config_store_ticket_key_comparator));
}
if (config->ticket_key_hashes == NULL) {
POSIX_ENSURE_REF(config->ticket_key_hashes = s2n_set_new(SHA_DIGEST_LENGTH, s2n_verify_unique_ticket_key_comparator));
}
return 0;
}
int s2n_config_free_session_ticket_keys(struct s2n_config *config)
{
if (config->ticket_keys != NULL) {
POSIX_GUARD_RESULT(s2n_set_free_p(&config->ticket_keys));
}
if (config->ticket_key_hashes != NULL) {
POSIX_GUARD_RESULT(s2n_set_free_p(&config->ticket_key_hashes));
}
return 0;
}
int s2n_config_free_cert_chain_and_key(struct s2n_config *config)
{
/* We track certificate ownership on the config itself because a config
* CANNOT use a combination of owned and unowned chains.
* If it does, and the unowned chains are freed before the config is,
* then iterating over the chains to determine which are owned and need to be freed
* will mean also reading the invalid, freed memory of any unowned certificates.
* As of now, some tests free chains before the config, so that pattern may also
* appear in application code.
*/
if (config->cert_ownership != S2N_LIB_OWNED) {
return S2N_SUCCESS;
}
/* Free the cert_chain_and_key since the application has no reference
* to it. This is necessary until s2n_config_add_cert_chain_and_key is deprecated. */
for (int i = 0; i < S2N_CERT_TYPE_COUNT; i++) {
s2n_cert_chain_and_key_free(config->default_certs_by_type.certs[i]);
config->default_certs_by_type.certs[i] = NULL;
}
config->cert_ownership = S2N_NOT_OWNED;
return S2N_SUCCESS;
}
int s2n_config_free_dhparams(struct s2n_config *config)
{
if (config->dhparams) {
POSIX_GUARD(s2n_dh_params_free(config->dhparams));
}
POSIX_GUARD(s2n_free_object((uint8_t **) &config->dhparams, sizeof(struct s2n_dh_params)));
return 0;
}
S2N_CLEANUP_RESULT s2n_config_ptr_free(struct s2n_config **config)
{
RESULT_ENSURE_REF(config);
RESULT_GUARD_POSIX(s2n_config_free(*config));
*config = NULL;
return S2N_RESULT_OK;
}
int s2n_config_free(struct s2n_config *config)
{
s2n_config_cleanup(config);
POSIX_GUARD(s2n_free_object((uint8_t **) &config, sizeof(struct s2n_config)));
return 0;
}
int s2n_config_get_client_auth_type(struct s2n_config *config, s2n_cert_auth_type *client_auth_type)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE_REF(client_auth_type);
*client_auth_type = config->client_cert_auth_type;
return 0;
}
int s2n_config_set_client_auth_type(struct s2n_config *config, s2n_cert_auth_type client_auth_type)
{
POSIX_ENSURE_REF(config);
config->client_cert_auth_type = client_auth_type;
return 0;
}
int s2n_config_set_ct_support_level(struct s2n_config *config, s2n_ct_support_level type)
{
POSIX_ENSURE_REF(config);
config->ct_type = type;
return 0;
}
int s2n_config_set_alert_behavior(struct s2n_config *config, s2n_alert_behavior alert_behavior)
{
POSIX_ENSURE_REF(config);
switch (alert_behavior) {
case S2N_ALERT_FAIL_ON_WARNINGS:
case S2N_ALERT_IGNORE_WARNINGS:
config->alert_behavior = alert_behavior;
break;
default:
POSIX_BAIL(S2N_ERR_INVALID_ARGUMENT);
}
return 0;
}
int s2n_config_set_verify_host_callback(struct s2n_config *config, s2n_verify_host_fn verify_host_fn, void *data)
{
POSIX_ENSURE_REF(config);
config->verify_host_fn = verify_host_fn;
config->data_for_verify_host = data;
return 0;
}
int s2n_config_set_check_stapled_ocsp_response(struct s2n_config *config, uint8_t check_ocsp)
{
POSIX_ENSURE_REF(config);
S2N_ERROR_IF(check_ocsp && !s2n_x509_ocsp_stapling_supported(), S2N_ERR_OCSP_NOT_SUPPORTED);
config->check_ocsp = check_ocsp;
return 0;
}
int s2n_config_disable_x509_time_verification(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
config->disable_x509_time_validation = true;
return S2N_SUCCESS;
}
int s2n_config_disable_x509_verification(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
s2n_x509_trust_store_wipe(&config->trust_store);
config->disable_x509_validation = 1;
return 0;
}
int s2n_config_set_max_cert_chain_depth(struct s2n_config *config, uint16_t max_depth)
{
POSIX_ENSURE_REF(config);
S2N_ERROR_IF(max_depth == 0, S2N_ERR_INVALID_ARGUMENT);
config->max_verify_cert_chain_depth = max_depth;
config->max_verify_cert_chain_depth_set = 1;
return 0;
}
int s2n_config_set_status_request_type(struct s2n_config *config, s2n_status_request_type type)
{
S2N_ERROR_IF(type == S2N_STATUS_REQUEST_OCSP && !s2n_x509_ocsp_stapling_supported(), S2N_ERR_OCSP_NOT_SUPPORTED);
POSIX_ENSURE_REF(config);
config->ocsp_status_requested_by_user = (type == S2N_STATUS_REQUEST_OCSP);
/* Reset the ocsp_status_requested_by_s2n flag if OCSP status requests were disabled. */
if (type == S2N_STATUS_REQUEST_NONE) {
config->ocsp_status_requested_by_s2n = false;
}
return 0;
}
int s2n_config_wipe_trust_store(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
s2n_x509_trust_store_wipe(&config->trust_store);
return S2N_SUCCESS;
}
int s2n_config_add_pem_to_trust_store(struct s2n_config *config, const char *pem)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE_REF(pem);
POSIX_GUARD(s2n_x509_trust_store_add_pem(&config->trust_store, pem));
return 0;
}
int s2n_config_set_verification_ca_location(struct s2n_config *config, const char *ca_pem_filename, const char *ca_dir)
{
POSIX_ENSURE_REF(config);
int err_code = s2n_x509_trust_store_from_ca_file(&config->trust_store, ca_pem_filename, ca_dir);
if (!err_code) {
config->ocsp_status_requested_by_s2n = s2n_x509_ocsp_stapling_supported() ? S2N_STATUS_REQUEST_OCSP : S2N_STATUS_REQUEST_NONE;
}
return err_code;
}
static int s2n_config_add_cert_chain_and_key_impl(struct s2n_config *config, struct s2n_cert_chain_and_key *cert_key_pair)
{
POSIX_ENSURE_REF(config->domain_name_to_cert_map);
POSIX_ENSURE_REF(cert_key_pair);
s2n_pkey_type cert_type = s2n_cert_chain_and_key_get_pkey_type(cert_key_pair);
config->is_rsa_cert_configured |= (cert_type == S2N_PKEY_TYPE_RSA);
POSIX_GUARD(s2n_config_build_domain_name_to_cert_map(config, cert_key_pair));
if (!config->default_certs_are_explicit) {
POSIX_ENSURE(cert_type >= 0, S2N_ERR_CERT_TYPE_UNSUPPORTED);
POSIX_ENSURE(cert_type < S2N_CERT_TYPE_COUNT, S2N_ERR_CERT_TYPE_UNSUPPORTED);
/* Attempt to auto set default based on ordering. ie: first RSA cert is the default, first ECDSA cert is the
* default, etc. */
if (config->default_certs_by_type.certs[cert_type] == NULL) {
config->default_certs_by_type.certs[cert_type] = cert_key_pair;
} else {
/* Because library-owned certificates are tracked and cleaned up via the
* default_certs_by_type mapping, library-owned chains MUST be set as the default
* to avoid a memory leak. If they're not the default, they're not freed.
*/
POSIX_ENSURE(config->cert_ownership != S2N_LIB_OWNED,
S2N_ERR_MULTIPLE_DEFAULT_CERTIFICATES_PER_AUTH_TYPE);
}
}
if (s2n_pkey_check_key_exists(cert_key_pair->private_key) != S2N_SUCCESS) {
config->no_signing_key = true;
}
return S2N_SUCCESS;
}
/* Deprecated. Superseded by s2n_config_add_cert_chain_and_key_to_store */
int s2n_config_add_cert_chain_and_key(struct s2n_config *config, const char *cert_chain_pem, const char *private_key_pem)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE(config->cert_ownership != S2N_APP_OWNED, S2N_ERR_CERT_OWNERSHIP);
DEFER_CLEANUP(struct s2n_cert_chain_and_key *chain_and_key = s2n_cert_chain_and_key_new(),
s2n_cert_chain_and_key_ptr_free);
POSIX_ENSURE_REF(chain_and_key);
POSIX_GUARD(s2n_cert_chain_and_key_load_pem(chain_and_key, cert_chain_pem, private_key_pem));
POSIX_GUARD(s2n_config_add_cert_chain_and_key_impl(config, chain_and_key));
config->cert_ownership = S2N_LIB_OWNED;
ZERO_TO_DISABLE_DEFER_CLEANUP(chain_and_key);
return S2N_SUCCESS;
}
/* Only used in the Rust bindings. Superseded by s2n_config_add_cert_chain_and_key_to_store */
int s2n_config_add_cert_chain(struct s2n_config *config,
uint8_t *cert_chain_pem, uint32_t cert_chain_pem_size)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE(config->cert_ownership != S2N_APP_OWNED, S2N_ERR_CERT_OWNERSHIP);
DEFER_CLEANUP(struct s2n_cert_chain_and_key *chain_and_key = s2n_cert_chain_and_key_new(),
s2n_cert_chain_and_key_ptr_free);
POSIX_ENSURE_REF(chain_and_key);
POSIX_GUARD(s2n_cert_chain_and_key_load_public_pem_bytes(chain_and_key,
cert_chain_pem, cert_chain_pem_size));
POSIX_GUARD(s2n_config_add_cert_chain_and_key_impl(config, chain_and_key));
config->cert_ownership = S2N_LIB_OWNED;
ZERO_TO_DISABLE_DEFER_CLEANUP(chain_and_key);
return S2N_SUCCESS;
}
int s2n_config_add_cert_chain_and_key_to_store(struct s2n_config *config, struct s2n_cert_chain_and_key *cert_key_pair)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE(config->cert_ownership != S2N_LIB_OWNED, S2N_ERR_CERT_OWNERSHIP);
POSIX_ENSURE_REF(cert_key_pair);
POSIX_GUARD(s2n_config_add_cert_chain_and_key_impl(config, cert_key_pair));
config->cert_ownership = S2N_APP_OWNED;
return S2N_SUCCESS;
}
int s2n_config_set_async_pkey_callback(struct s2n_config *config, s2n_async_pkey_fn fn)
{
POSIX_ENSURE_REF(config);
config->async_pkey_cb = fn;
return S2N_SUCCESS;
}
static int s2n_config_clear_default_certificates(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
/* Clearing library-owned chains would lead to a memory leak.
* See s2n_config_free_cert_chain_and_key.
*/
POSIX_ENSURE(config->cert_ownership != S2N_LIB_OWNED, S2N_ERR_CERT_OWNERSHIP);
for (int i = 0; i < S2N_CERT_TYPE_COUNT; i++) {
config->default_certs_by_type.certs[i] = NULL;
}
config->cert_ownership = S2N_NOT_OWNED;
return 0;
}
int s2n_config_set_cert_chain_and_key_defaults(struct s2n_config *config,
struct s2n_cert_chain_and_key **cert_key_pairs,
uint32_t num_cert_key_pairs)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE_REF(cert_key_pairs);
S2N_ERROR_IF(num_cert_key_pairs < 1 || num_cert_key_pairs > S2N_CERT_TYPE_COUNT,
S2N_ERR_NUM_DEFAULT_CERTIFICATES);
/* This method will set application-owned chains, so we must not already be using
* any library owned chains. See s2n_config_free_cert_chain_and_key.
*/
POSIX_ENSURE(config->cert_ownership != S2N_LIB_OWNED, S2N_ERR_CERT_OWNERSHIP);
/* Validate certs being set before clearing auto-chosen defaults or previously set defaults */
struct certs_by_type new_defaults = { { 0 } };
for (size_t i = 0; i < num_cert_key_pairs; i++) {
POSIX_ENSURE_REF(cert_key_pairs[i]);
s2n_pkey_type cert_type = s2n_cert_chain_and_key_get_pkey_type(cert_key_pairs[i]);
S2N_ERROR_IF(new_defaults.certs[cert_type] != NULL, S2N_ERR_MULTIPLE_DEFAULT_CERTIFICATES_PER_AUTH_TYPE);
new_defaults.certs[cert_type] = cert_key_pairs[i];
}
POSIX_GUARD(s2n_config_clear_default_certificates(config));
for (size_t i = 0; i < num_cert_key_pairs; i++) {
s2n_pkey_type cert_type = s2n_cert_chain_and_key_get_pkey_type(cert_key_pairs[i]);
config->is_rsa_cert_configured |= (cert_type == S2N_PKEY_TYPE_RSA);
config->default_certs_by_type.certs[cert_type] = cert_key_pairs[i];
}
config->default_certs_are_explicit = 1;
config->cert_ownership = S2N_APP_OWNED;
return 0;
}
int s2n_config_add_dhparams(struct s2n_config *config, const char *dhparams_pem)
{
DEFER_CLEANUP(struct s2n_stuffer dhparams_in_stuffer = { 0 }, s2n_stuffer_free);
DEFER_CLEANUP(struct s2n_stuffer dhparams_out_stuffer = { 0 }, s2n_stuffer_free);
struct s2n_blob dhparams_blob = { 0 };
struct s2n_blob mem = { 0 };
/* Allocate the memory for the chain and key struct */
POSIX_GUARD(s2n_alloc(&mem, sizeof(struct s2n_dh_params)));
config->dhparams = (struct s2n_dh_params *) (void *) mem.data;
if (s2n_stuffer_alloc_ro_from_string(&dhparams_in_stuffer, dhparams_pem) != S2N_SUCCESS) {
s2n_free(&mem);
S2N_ERROR_PRESERVE_ERRNO();
}
if (s2n_stuffer_growable_alloc(&dhparams_out_stuffer, strlen(dhparams_pem)) != S2N_SUCCESS) {
s2n_free(&mem);
S2N_ERROR_PRESERVE_ERRNO();
}
/* Convert pem to asn1 and asn1 to the private key */
POSIX_GUARD(s2n_stuffer_dhparams_from_pem(&dhparams_in_stuffer, &dhparams_out_stuffer));
dhparams_blob.size = s2n_stuffer_data_available(&dhparams_out_stuffer);
dhparams_blob.data = s2n_stuffer_raw_read(&dhparams_out_stuffer, dhparams_blob.size);
POSIX_ENSURE_REF(dhparams_blob.data);
POSIX_GUARD(s2n_pkcs3_to_dh_params(config->dhparams, &dhparams_blob));
return 0;
}
int s2n_config_set_wall_clock(struct s2n_config *config, s2n_clock_time_nanoseconds clock_fn, void *ctx)
{
POSIX_ENSURE_REF(clock_fn);
config->wall_clock = clock_fn;
config->sys_clock_ctx = ctx;
return 0;
}
int s2n_config_set_monotonic_clock(struct s2n_config *config, s2n_clock_time_nanoseconds clock_fn, void *ctx)
{
POSIX_ENSURE_REF(clock_fn);
config->monotonic_clock = clock_fn;
config->monotonic_clock_ctx = ctx;
return 0;
}
int s2n_config_set_cache_store_callback(struct s2n_config *config, s2n_cache_store_callback cache_store_callback, void *data)
{
POSIX_ENSURE_REF(cache_store_callback);
config->cache_store = cache_store_callback;
config->cache_store_data = data;
return 0;
}
int s2n_config_set_cache_retrieve_callback(struct s2n_config *config, s2n_cache_retrieve_callback cache_retrieve_callback, void *data)
{
POSIX_ENSURE_REF(cache_retrieve_callback);
config->cache_retrieve = cache_retrieve_callback;
config->cache_retrieve_data = data;
return 0;
}
int s2n_config_set_cache_delete_callback(struct s2n_config *config, s2n_cache_delete_callback cache_delete_callback, void *data)
{
POSIX_ENSURE_REF(cache_delete_callback);
config->cache_delete = cache_delete_callback;
config->cache_delete_data = data;
return 0;
}
int s2n_config_set_extension_data(struct s2n_config *config, s2n_tls_extension_type type, const uint8_t *data, uint32_t length)
{
POSIX_ENSURE_REF(config);
if (s2n_config_get_num_default_certs(config) == 0) {
POSIX_BAIL(S2N_ERR_UPDATING_EXTENSION);
}
struct s2n_cert_chain_and_key *config_chain_and_key = s2n_config_get_single_default_cert(config);
POSIX_ENSURE_REF(config_chain_and_key);
POSIX_ENSURE(config->cert_ownership == S2N_LIB_OWNED, S2N_ERR_CERT_OWNERSHIP);
switch (type) {
case S2N_EXTENSION_CERTIFICATE_TRANSPARENCY:
POSIX_GUARD(s2n_cert_chain_and_key_set_sct_list(config_chain_and_key, data, length));
break;
case S2N_EXTENSION_OCSP_STAPLING:
POSIX_GUARD(s2n_cert_chain_and_key_set_ocsp_data(config_chain_and_key, data, length));
break;
default:
POSIX_BAIL(S2N_ERR_UNRECOGNIZED_EXTENSION);
}
return 0;
}
int s2n_config_set_client_hello_cb(struct s2n_config *config, s2n_client_hello_fn client_hello_cb, void *ctx)
{
POSIX_ENSURE_REF(config);
config->client_hello_cb = client_hello_cb;
config->client_hello_cb_ctx = ctx;
return 0;
}
int s2n_config_set_client_hello_cb_mode(struct s2n_config *config, s2n_client_hello_cb_mode cb_mode)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE(cb_mode == S2N_CLIENT_HELLO_CB_BLOCKING || cb_mode == S2N_CLIENT_HELLO_CB_NONBLOCKING, S2N_ERR_INVALID_STATE);
config->client_hello_cb_mode = cb_mode;
return S2N_SUCCESS;
}
int s2n_config_send_max_fragment_length(struct s2n_config *config, s2n_max_frag_len mfl_code)
{
POSIX_ENSURE_REF(config);
S2N_ERROR_IF(mfl_code > S2N_TLS_MAX_FRAG_LEN_4096, S2N_ERR_INVALID_MAX_FRAG_LEN);
config->mfl_code = mfl_code;
return 0;
}
int s2n_config_accept_max_fragment_length(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
config->accept_mfl = 1;
return 0;
}
int s2n_config_set_session_state_lifetime(struct s2n_config *config,
uint64_t lifetime_in_secs)
{
POSIX_ENSURE_REF(config);
config->session_state_lifetime_in_nanos = (lifetime_in_secs * ONE_SEC_IN_NANOS);
return 0;
}
int s2n_config_set_session_tickets_onoff(struct s2n_config *config, uint8_t enabled)
{
POSIX_ENSURE_REF(config);
if (config->use_tickets == enabled) {
return 0;
}
config->use_tickets = enabled;
if (config->initial_tickets_to_send == 0) {
/* Normally initial_tickets_to_send is set via s2n_config_set_initial_ticket_count.
* However, s2n_config_set_initial_ticket_count calls this method.
* So we set initial_tickets_to_send directly to avoid infinite recursion. */
config->initial_tickets_to_send = 1;
}
/* session ticket || session id is enabled */
if (enabled) {
POSIX_GUARD(s2n_config_init_session_ticket_keys(config));
} else if (!config->use_session_cache) {
POSIX_GUARD(s2n_config_free_session_ticket_keys(config));
}
return 0;
}
int s2n_config_set_session_cache_onoff(struct s2n_config *config, uint8_t enabled)
{
POSIX_ENSURE_REF(config);
if (enabled && config->cache_store && config->cache_retrieve && config->cache_delete) {
POSIX_GUARD(s2n_config_init_session_ticket_keys(config));
config->use_session_cache = 1;
} else {
if (!config->use_tickets) {
POSIX_GUARD(s2n_config_free_session_ticket_keys(config));
}
config->use_session_cache = 0;
}
return 0;
}
int s2n_config_set_ticket_encrypt_decrypt_key_lifetime(struct s2n_config *config,
uint64_t lifetime_in_secs)
{
POSIX_ENSURE_REF(config);
config->encrypt_decrypt_key_lifetime_in_nanos = (lifetime_in_secs * ONE_SEC_IN_NANOS);
return 0;
}
int s2n_config_set_ticket_decrypt_key_lifetime(struct s2n_config *config,
uint64_t lifetime_in_secs)
{
POSIX_ENSURE_REF(config);
config->decrypt_key_lifetime_in_nanos = (lifetime_in_secs * ONE_SEC_IN_NANOS);
return 0;
}
int s2n_config_add_ticket_crypto_key(struct s2n_config *config,
const uint8_t *name, uint32_t name_len,
uint8_t *key, uint32_t key_len,
uint64_t intro_time_in_seconds_from_epoch)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE_REF(name);
POSIX_ENSURE_REF(key);
/* both session ticket and session cache encryption/decryption can use the same key mechanism */
if (!config->use_tickets && !config->use_session_cache) {
return 0;
}
POSIX_GUARD(s2n_config_wipe_expired_ticket_crypto_keys(config, -1));
POSIX_ENSURE(key_len != 0, S2N_ERR_INVALID_TICKET_KEY_LENGTH);
uint32_t ticket_keys_len = 0;
POSIX_GUARD_RESULT(s2n_set_len(config->ticket_keys, &ticket_keys_len));
POSIX_ENSURE(ticket_keys_len < S2N_MAX_TICKET_KEYS, S2N_ERR_TICKET_KEY_LIMIT);
POSIX_ENSURE(name_len != 0, S2N_ERR_INVALID_TICKET_KEY_NAME_OR_NAME_LENGTH);
POSIX_ENSURE(name_len <= S2N_TICKET_KEY_NAME_LEN, S2N_ERR_INVALID_TICKET_KEY_NAME_OR_NAME_LENGTH);
/* Copy the name into a zero-padded array. */
/* This ensures that all ticket names are equal in length, as the serialized name is fixed length */
uint8_t name_data[S2N_TICKET_KEY_NAME_LEN] = { 0 };
POSIX_CHECKED_MEMCPY(name_data, name, name_len);
/* ensure the ticket name is not already present */
POSIX_ENSURE(s2n_find_ticket_key(config, name_data) == NULL, S2N_ERR_INVALID_TICKET_KEY_NAME_OR_NAME_LENGTH);
uint8_t output_pad[S2N_AES256_KEY_LEN + S2N_TICKET_AAD_IMPLICIT_LEN] = { 0 };
struct s2n_blob out_key = { 0 };
POSIX_GUARD(s2n_blob_init(&out_key, output_pad, s2n_array_len(output_pad)));
struct s2n_blob in_key = { 0 };
POSIX_GUARD(s2n_blob_init(&in_key, key, key_len));
struct s2n_blob salt = { 0 };
POSIX_GUARD(s2n_blob_init(&salt, NULL, 0));
struct s2n_blob info = { 0 };
POSIX_GUARD(s2n_blob_init(&info, NULL, 0));
struct s2n_ticket_key *session_ticket_key = { 0 };
DEFER_CLEANUP(struct s2n_blob allocator = { 0 }, s2n_free);
POSIX_GUARD(s2n_alloc(&allocator, sizeof(struct s2n_ticket_key)));
session_ticket_key = (struct s2n_ticket_key *) (void *) allocator.data;
DEFER_CLEANUP(struct s2n_hmac_state hmac = { 0 }, s2n_hmac_free);
POSIX_GUARD(s2n_hmac_new(&hmac));
POSIX_GUARD(s2n_hkdf(&hmac, S2N_HMAC_SHA256, &salt, &in_key, &info, &out_key));
DEFER_CLEANUP(struct s2n_hash_state hash = { 0 }, s2n_hash_free);
uint8_t hash_output[SHA_DIGEST_LENGTH] = { 0 };
POSIX_GUARD(s2n_hash_new(&hash));
POSIX_GUARD(s2n_hash_init(&hash, S2N_HASH_SHA1));
POSIX_GUARD(s2n_hash_update(&hash, out_key.data, out_key.size));
POSIX_GUARD(s2n_hash_digest(&hash, hash_output, SHA_DIGEST_LENGTH));
POSIX_GUARD_RESULT(s2n_set_len(config->ticket_keys, &ticket_keys_len));
if (ticket_keys_len >= S2N_MAX_TICKET_KEY_HASHES) {
POSIX_GUARD_RESULT(s2n_set_free_p(&config->ticket_key_hashes));
POSIX_ENSURE_REF(config->ticket_key_hashes = s2n_set_new(SHA_DIGEST_LENGTH, s2n_verify_unique_ticket_key_comparator));
}
/* Insert hash key into a sorted array at known index */
POSIX_GUARD_RESULT(s2n_set_add(config->ticket_key_hashes, hash_output));
POSIX_CHECKED_MEMCPY(session_ticket_key->key_name, name_data, s2n_array_len(name_data));
POSIX_CHECKED_MEMCPY(session_ticket_key->aes_key, out_key.data, S2N_AES256_KEY_LEN);
out_key.data = output_pad + S2N_AES256_KEY_LEN;
POSIX_CHECKED_MEMCPY(session_ticket_key->implicit_aad, out_key.data, S2N_TICKET_AAD_IMPLICIT_LEN);
if (intro_time_in_seconds_from_epoch == 0) {
uint64_t now = 0;
POSIX_GUARD_RESULT(s2n_config_wall_clock(config, &now));
session_ticket_key->intro_timestamp = now;
} else {
session_ticket_key->intro_timestamp = (intro_time_in_seconds_from_epoch * ONE_SEC_IN_NANOS);
}
POSIX_GUARD(s2n_config_store_ticket_key(config, session_ticket_key));
return 0;
}
int s2n_config_set_cert_tiebreak_callback(struct s2n_config *config, s2n_cert_tiebreak_callback cert_tiebreak_cb)
{
config->cert_tiebreak_cb = cert_tiebreak_cb;
return 0;
}
struct s2n_cert_chain_and_key *s2n_config_get_single_default_cert(struct s2n_config *config)
{
PTR_ENSURE_REF(config);
struct s2n_cert_chain_and_key *cert = NULL;
for (int i = S2N_CERT_TYPE_COUNT - 1; i >= 0; i--) {
if (config->default_certs_by_type.certs[i] != NULL) {
cert = config->default_certs_by_type.certs[i];
}
}
return cert;
}
int s2n_config_get_num_default_certs(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
int num_certs = 0;
for (int i = 0; i < S2N_CERT_TYPE_COUNT; i++) {
if (config->default_certs_by_type.certs[i] != NULL) {
num_certs++;
}
}
return num_certs;
}
int s2n_config_enable_cert_req_dss_legacy_compat(struct s2n_config *config)
{
POSIX_ENSURE_REF(config);
config->cert_req_dss_legacy_compat_enabled = 1;
return S2N_SUCCESS;
}
int s2n_config_set_psk_selection_callback(struct s2n_config *config, s2n_psk_selection_callback cb, void *context)
{
POSIX_ENSURE_REF(config);
config->psk_selection_cb = cb;
config->psk_selection_ctx = context;
return S2N_SUCCESS;
}
int s2n_config_set_key_log_cb(struct s2n_config *config, s2n_key_log_fn callback, void *ctx)
{
POSIX_ENSURE_MUT(config);
config->key_log_cb = callback;
config->key_log_ctx = ctx;
return S2N_SUCCESS;
}
int s2n_config_set_async_pkey_validation_mode(struct s2n_config *config, s2n_async_pkey_validation_mode mode)
{
POSIX_ENSURE_REF(config);
switch (mode) {
case S2N_ASYNC_PKEY_VALIDATION_FAST:
case S2N_ASYNC_PKEY_VALIDATION_STRICT:
config->async_pkey_validation_mode = mode;
return S2N_SUCCESS;
}
POSIX_BAIL(S2N_ERR_INVALID_ARGUMENT);
}
int s2n_config_set_ctx(struct s2n_config *config, void *ctx)
{
POSIX_ENSURE_REF(config);
config->context = ctx;
return S2N_SUCCESS;
}
int s2n_config_get_ctx(struct s2n_config *config, void **ctx)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE_REF(ctx);
*ctx = config->context;
return S2N_SUCCESS;
}
int s2n_config_set_send_buffer_size(struct s2n_config *config, uint32_t size)
{
POSIX_ENSURE_REF(config);
POSIX_ENSURE(size >= S2N_MIN_SEND_BUFFER_SIZE, S2N_ERR_INVALID_ARGUMENT);
config->send_buffer_size_override = size;
return S2N_SUCCESS;
}
int s2n_config_set_verify_after_sign(struct s2n_config *config, s2n_verify_after_sign mode)
{
POSIX_ENSURE_REF(config);
switch (mode) {
case S2N_VERIFY_AFTER_SIGN_DISABLED:
config->verify_after_sign = false;
break;
case S2N_VERIFY_AFTER_SIGN_ENABLED:
config->verify_after_sign = true;
break;
default:
POSIX_BAIL(S2N_ERR_INVALID_ARGUMENT);
}
return S2N_SUCCESS;
}
/*
*= https://tools.ietf.org/rfc/rfc5746#5
*# TLS implementations SHOULD provide a mechanism to disable and enable
*# renegotiation.
*/
int s2n_config_set_renegotiate_request_cb(struct s2n_config *config, s2n_renegotiate_request_cb cb, void *ctx)
{
POSIX_ENSURE_REF(config);
config->renegotiate_request_cb = cb;
config->renegotiate_request_ctx = ctx;
return S2N_SUCCESS;
}
int s2n_config_set_npn(struct s2n_config *config, bool enable)
{
POSIX_ENSURE_REF(config);
config->npn_supported = enable;
return S2N_SUCCESS;
}
/*
* Wrapper for wall_clock callback. This wrapper will ensure right return of s2n_errno everytime wall_clock
* callback is called.
*/
S2N_RESULT s2n_config_wall_clock(struct s2n_config *config, uint64_t *output)
{
RESULT_ENSURE(config->wall_clock(config->sys_clock_ctx, output) >= S2N_SUCCESS, S2N_ERR_CANCELLED);
return S2N_RESULT_OK;
}
int s2n_config_set_crl_lookup_cb(struct s2n_config *config, s2n_crl_lookup_callback cb, void *ctx)
{
POSIX_ENSURE_REF(config);
config->crl_lookup_cb = cb;
config->crl_lookup_ctx = ctx;
return S2N_SUCCESS;
}
int s2n_config_set_recv_multi_record(struct s2n_config *config, bool enabled)
{
POSIX_ENSURE_REF(config);
config->recv_multi_record = enabled;
return S2N_SUCCESS;
}
int s2n_config_set_cert_validation_cb(struct s2n_config *config, s2n_cert_validation_callback cb, void *ctx)
{
POSIX_ENSURE_REF(config);
config->cert_validation_cb = cb;
config->cert_validation_ctx = ctx;
return S2N_SUCCESS;
}
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