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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 <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <time.h>
#include <unistd.h>
#include <s2n.h>
#include <stdbool.h>
#include "crypto/s2n_fips.h"
#include "error/s2n_errno.h"
#include "tls/extensions/s2n_client_server_name.h"
#include "tls/s2n_alerts.h"
#include "tls/s2n_cipher_suites.h"
#include "tls/s2n_connection.h"
#include "tls/s2n_connection_evp_digests.h"
#include "tls/s2n_handshake.h"
#include "tls/s2n_kem.h"
#include "tls/s2n_prf.h"
#include "tls/s2n_record.h"
#include "tls/s2n_resume.h"
#include "tls/s2n_security_policies.h"
#include "tls/s2n_tls.h"
#include "tls/s2n_tls_parameters.h"
#include "crypto/s2n_certificate.h"
#include "crypto/s2n_cipher.h"
#include "utils/s2n_blob.h"
#include "utils/s2n_compiler.h"
#include "utils/s2n_mem.h"
#include "utils/s2n_random.h"
#include "utils/s2n_safety.h"
#include "utils/s2n_socket.h"
#include "utils/s2n_timer.h"
#define S2N_SET_KEY_SHARE_LIST_EMPTY(keyshares) (keyshares |= 1)
#define S2N_SET_KEY_SHARE_REQUEST(keyshares, i) (keyshares |= ( 1 << ( i + 1 )))
static int s2n_connection_new_hashes(struct s2n_connection *conn)
{
/* Allocate long-term memory for the Connection's hash states */
GUARD(s2n_hash_new(&conn->handshake.md5));
GUARD(s2n_hash_new(&conn->handshake.sha1));
GUARD(s2n_hash_new(&conn->handshake.sha224));
GUARD(s2n_hash_new(&conn->handshake.sha256));
GUARD(s2n_hash_new(&conn->handshake.sha384));
GUARD(s2n_hash_new(&conn->handshake.sha512));
GUARD(s2n_hash_new(&conn->handshake.md5_sha1));
GUARD(s2n_hash_new(&conn->handshake.ccv_hash_copy));
GUARD(s2n_hash_new(&conn->handshake.prf_md5_hash_copy));
GUARD(s2n_hash_new(&conn->handshake.prf_sha1_hash_copy));
GUARD(s2n_hash_new(&conn->handshake.prf_tls12_hash_copy));
GUARD(s2n_hash_new(&conn->handshake.server_finished_copy));
GUARD(s2n_hash_new(&conn->prf_space.ssl3.md5));
GUARD(s2n_hash_new(&conn->prf_space.ssl3.sha1));
GUARD(s2n_hash_new(&conn->initial.signature_hash));
GUARD(s2n_hash_new(&conn->secure.signature_hash));
return 0;
}
static int s2n_connection_init_hashes(struct s2n_connection *conn)
{
/* Initialize all of the Connection's hash states */
if (s2n_hash_is_available(S2N_HASH_MD5)) {
/* Only initialize hashes that use MD5 if available. */
GUARD(s2n_hash_init(&conn->prf_space.ssl3.md5, S2N_HASH_MD5));
}
/* Allow MD5 for hash states that are used by the PRF. This is required
* to comply with the TLS 1.0 and 1.1 RFCs and is approved as per
* NIST Special Publication 800-52 Revision 1.
*/
if (s2n_is_in_fips_mode()) {
GUARD(s2n_hash_allow_md5_for_fips(&conn->handshake.md5));
GUARD(s2n_hash_allow_md5_for_fips(&conn->handshake.prf_md5_hash_copy));
/* Do not check s2n_hash_is_available before initialization. Allow MD5 and
* SHA-1 for both fips and non-fips mode. This is required to perform the
* signature checks in the CertificateVerify message in TLS 1.0 and TLS 1.1.
* This is approved per Nist SP 800-52r1.*/
GUARD(s2n_hash_allow_md5_for_fips(&conn->handshake.md5_sha1));
}
GUARD(s2n_hash_init(&conn->handshake.md5, S2N_HASH_MD5));
GUARD(s2n_hash_init(&conn->handshake.prf_md5_hash_copy, S2N_HASH_MD5));
GUARD(s2n_hash_init(&conn->handshake.md5_sha1, S2N_HASH_MD5_SHA1));
GUARD(s2n_hash_init(&conn->handshake.sha1, S2N_HASH_SHA1));
GUARD(s2n_hash_init(&conn->handshake.sha224, S2N_HASH_SHA224));
GUARD(s2n_hash_init(&conn->handshake.sha256, S2N_HASH_SHA256));
GUARD(s2n_hash_init(&conn->handshake.sha384, S2N_HASH_SHA384));
GUARD(s2n_hash_init(&conn->handshake.sha512, S2N_HASH_SHA512));
GUARD(s2n_hash_init(&conn->handshake.ccv_hash_copy, S2N_HASH_NONE));
GUARD(s2n_hash_init(&conn->handshake.prf_tls12_hash_copy, S2N_HASH_NONE));
GUARD(s2n_hash_init(&conn->handshake.server_finished_copy, S2N_HASH_NONE));
GUARD(s2n_hash_init(&conn->handshake.prf_sha1_hash_copy, S2N_HASH_SHA1));
GUARD(s2n_hash_init(&conn->prf_space.ssl3.sha1, S2N_HASH_SHA1));
GUARD(s2n_hash_init(&conn->initial.signature_hash, S2N_HASH_NONE));
GUARD(s2n_hash_init(&conn->secure.signature_hash, S2N_HASH_NONE));
return 0;
}
static int s2n_connection_new_hmacs(struct s2n_connection *conn)
{
/* Allocate long-term memory for the Connection's HMAC states */
GUARD(s2n_hmac_new(&conn->initial.client_record_mac));
GUARD(s2n_hmac_new(&conn->initial.server_record_mac));
GUARD(s2n_hmac_new(&conn->initial.record_mac_copy_workspace));
GUARD(s2n_hmac_new(&conn->secure.client_record_mac));
GUARD(s2n_hmac_new(&conn->secure.server_record_mac));
GUARD(s2n_hmac_new(&conn->secure.record_mac_copy_workspace));
return 0;
}
static int s2n_connection_init_hmacs(struct s2n_connection *conn)
{
/* Initialize all of the Connection's HMAC states */
GUARD(s2n_hmac_init(&conn->initial.client_record_mac, S2N_HMAC_NONE, NULL, 0));
GUARD(s2n_hmac_init(&conn->initial.server_record_mac, S2N_HMAC_NONE, NULL, 0));
GUARD(s2n_hmac_init(&conn->initial.record_mac_copy_workspace, S2N_HMAC_NONE, NULL, 0));
GUARD(s2n_hmac_init(&conn->secure.client_record_mac, S2N_HMAC_NONE, NULL, 0));
GUARD(s2n_hmac_init(&conn->secure.server_record_mac, S2N_HMAC_NONE, NULL, 0));
GUARD(s2n_hmac_init(&conn->secure.record_mac_copy_workspace, S2N_HMAC_NONE, NULL, 0));
return 0;
}
struct s2n_connection *s2n_connection_new(s2n_mode mode)
{
struct s2n_blob blob = {0};
GUARD_PTR(s2n_alloc(&blob, sizeof(struct s2n_connection)));
GUARD_PTR(s2n_blob_zero(&blob));
/* Cast 'through' void to acknowledge that we are changing alignment,
* which is ok, as blob.data is always aligned.
*/
struct s2n_connection* conn = (struct s2n_connection *)(void *)blob.data;
GUARD_PTR(s2n_connection_set_config(conn, s2n_fetch_default_config()));
conn->mode = mode;
conn->blinding = S2N_BUILT_IN_BLINDING;
conn->close_notify_queued = 0;
conn->client_session_resumed = 0;
conn->session_id_len = 0;
conn->verify_host_fn = NULL;
conn->data_for_verify_host = NULL;
conn->verify_host_fn_overridden = 0;
conn->data_for_verify_host = NULL;
conn->send = NULL;
conn->recv = NULL;
conn->send_io_context = NULL;
conn->recv_io_context = NULL;
conn->managed_io = 0;
conn->corked_io = 0;
conn->context = NULL;
conn->security_policy_override = NULL;
conn->ticket_lifetime_hint = 0;
conn->session_ticket_status = S2N_NO_TICKET;
/* Allocate the fixed-size stuffers */
blob = (struct s2n_blob) {0};
GUARD_PTR(s2n_blob_init(&blob, conn->alert_in_data, S2N_ALERT_LENGTH));
GUARD_PTR(s2n_stuffer_init(&conn->alert_in, &blob));
blob = (struct s2n_blob) {0};
GUARD_PTR(s2n_blob_init(&blob, conn->reader_alert_out_data, S2N_ALERT_LENGTH));
GUARD_PTR(s2n_stuffer_init(&conn->reader_alert_out, &blob));
blob = (struct s2n_blob) {0};
GUARD_PTR(s2n_blob_init(&blob, conn->writer_alert_out_data, S2N_ALERT_LENGTH));
GUARD_PTR(s2n_stuffer_init(&conn->writer_alert_out, &blob));
blob = (struct s2n_blob) {0};
GUARD_PTR(s2n_blob_init(&blob, conn->ticket_ext_data, S2N_TICKET_SIZE_IN_BYTES));
GUARD_PTR(s2n_stuffer_init(&conn->client_ticket_to_decrypt, &blob));
/* Allocate long term key memory */
GUARD_PTR(s2n_session_key_alloc(&conn->secure.client_key));
GUARD_PTR(s2n_session_key_alloc(&conn->secure.server_key));
GUARD_PTR(s2n_session_key_alloc(&conn->initial.client_key));
GUARD_PTR(s2n_session_key_alloc(&conn->initial.server_key));
/* Allocate long term hash and HMAC memory */
GUARD_PTR(s2n_prf_new(conn));
GUARD_PTR(s2n_connection_new_hashes(conn));
GUARD_PTR(s2n_connection_init_hashes(conn));
GUARD_PTR(s2n_connection_new_hmacs(conn));
GUARD_PTR(s2n_connection_init_hmacs(conn));
/* Initialize the growable stuffers. Zero length at first, but the resize
* in _wipe will fix that
*/
blob = (struct s2n_blob) {0};
GUARD_PTR(s2n_blob_init(&blob, conn->header_in_data, S2N_TLS_RECORD_HEADER_LENGTH));
GUARD_PTR(s2n_stuffer_init(&conn->header_in, &blob));
GUARD_PTR(s2n_stuffer_growable_alloc(&conn->out, 0));
GUARD_PTR(s2n_stuffer_growable_alloc(&conn->in, 0));
GUARD_PTR(s2n_stuffer_growable_alloc(&conn->handshake.io, 0));
GUARD_PTR(s2n_stuffer_growable_alloc(&conn->client_hello.raw_message, 0));
GUARD_PTR(s2n_connection_wipe(conn));
GUARD_RESULT_PTR(s2n_timer_start(conn->config, &conn->write_timer));
/* Initialize the cookie stuffer with zero length. If a cookie extension
* is received, the stuffer will be resized according to the cookie length */
GUARD_PTR(s2n_stuffer_growable_alloc(&conn->cookie_stuffer, 0));
return conn;
}
static int s2n_connection_free_keys(struct s2n_connection *conn)
{
GUARD(s2n_session_key_free(&conn->secure.client_key));
GUARD(s2n_session_key_free(&conn->secure.server_key));
GUARD(s2n_session_key_free(&conn->initial.client_key));
GUARD(s2n_session_key_free(&conn->initial.server_key));
return 0;
}
static int s2n_connection_zero(struct s2n_connection *conn, int mode, struct s2n_config *config)
{
/* Zero the whole connection structure */
memset_check(conn, 0, sizeof(struct s2n_connection));
conn->send = NULL;
conn->recv = NULL;
conn->send_io_context = NULL;
conn->recv_io_context = NULL;
conn->mode = mode;
conn->close_notify_queued = 0;
conn->client_session_resumed = 0;
conn->current_user_data_consumed = 0;
conn->initial.cipher_suite = &s2n_null_cipher_suite;
conn->secure.cipher_suite = &s2n_null_cipher_suite;
conn->initial.kem_params.kem = NULL;
conn->secure.kem_params.kem = NULL;
conn->server = &conn->initial;
conn->client = &conn->initial;
conn->max_outgoing_fragment_length = S2N_DEFAULT_FRAGMENT_LENGTH;
conn->mfl_code = S2N_TLS_MAX_FRAG_LEN_EXT_NONE;
conn->handshake.handshake_type = INITIAL;
conn->handshake.message_number = 0;
conn->handshake.paused = 0;
conn->verify_host_fn = NULL;
conn->verify_host_fn_overridden = 0;
conn->data_for_verify_host = NULL;
s2n_connection_set_config(conn, config);
return 0;
}
static int s2n_connection_wipe_keys(struct s2n_connection *conn)
{
/* Destroy any keys - we call destroy on the object as that is where
* keys are allocated. */
if (conn->secure.cipher_suite
&& conn->secure.cipher_suite->record_alg
&& conn->secure.cipher_suite->record_alg->cipher
&& conn->secure.cipher_suite->record_alg->cipher->destroy_key) {
GUARD(conn->secure.cipher_suite->record_alg->cipher->destroy_key(&conn->secure.client_key));
GUARD(conn->secure.cipher_suite->record_alg->cipher->destroy_key(&conn->secure.server_key));
}
/* Free any server key received (we may not have completed a
* handshake, so this may not have been free'd yet) */
GUARD(s2n_pkey_free(&conn->secure.server_public_key));
GUARD(s2n_pkey_zero_init(&conn->secure.server_public_key));
GUARD(s2n_pkey_free(&conn->secure.client_public_key));
GUARD(s2n_pkey_zero_init(&conn->secure.client_public_key));
s2n_x509_validator_wipe(&conn->x509_validator);
GUARD(s2n_dh_params_free(&conn->secure.server_dh_params));
GUARD(s2n_ecc_evp_params_free(&conn->secure.server_ecc_evp_params));
for (int i=0; i < S2N_ECC_EVP_SUPPORTED_CURVES_COUNT; i++) {
GUARD(s2n_ecc_evp_params_free(&conn->secure.client_ecc_evp_params[i]));
}
GUARD(s2n_kem_group_free(&conn->secure.server_kem_group_params));
for (int i = 0; i < S2N_SUPPORTED_KEM_GROUPS_COUNT; i++) {
GUARD(s2n_kem_group_free(&conn->secure.client_kem_group_params[i]));
}
GUARD(s2n_kem_free(&conn->secure.kem_params));
GUARD(s2n_free(&conn->secure.client_cert_chain));
GUARD(s2n_free(&conn->ct_response));
return 0;
}
static int s2n_connection_reset_hashes(struct s2n_connection *conn)
{
/* Reset all of the Connection's hash states */
GUARD(s2n_hash_reset(&conn->handshake.md5));
GUARD(s2n_hash_reset(&conn->handshake.sha1));
GUARD(s2n_hash_reset(&conn->handshake.sha224));
GUARD(s2n_hash_reset(&conn->handshake.sha256));
GUARD(s2n_hash_reset(&conn->handshake.sha384));
GUARD(s2n_hash_reset(&conn->handshake.sha512));
GUARD(s2n_hash_reset(&conn->handshake.md5_sha1));
GUARD(s2n_hash_reset(&conn->handshake.ccv_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.prf_md5_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.prf_sha1_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.prf_tls12_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.server_finished_copy));
GUARD(s2n_hash_reset(&conn->prf_space.ssl3.md5));
GUARD(s2n_hash_reset(&conn->prf_space.ssl3.sha1));
GUARD(s2n_hash_reset(&conn->initial.signature_hash));
GUARD(s2n_hash_reset(&conn->secure.signature_hash));
return 0;
}
static int s2n_connection_reset_hmacs(struct s2n_connection *conn)
{
/* Reset all of the Connection's HMAC states */
GUARD(s2n_hmac_reset(&conn->initial.client_record_mac));
GUARD(s2n_hmac_reset(&conn->initial.server_record_mac));
GUARD(s2n_hmac_reset(&conn->initial.record_mac_copy_workspace));
GUARD(s2n_hmac_reset(&conn->secure.client_record_mac));
GUARD(s2n_hmac_reset(&conn->secure.server_record_mac));
GUARD(s2n_hmac_reset(&conn->secure.record_mac_copy_workspace));
return 0;
}
static int s2n_connection_free_io_contexts(struct s2n_connection *conn)
{
/* Free the I/O context if it was allocated by s2n. Don't touch user-controlled contexts. */
if (!conn->managed_io) {
return 0;
}
GUARD(s2n_free_object((uint8_t **)&conn->send_io_context, sizeof(struct s2n_socket_write_io_context)));
GUARD(s2n_free_object((uint8_t **)&conn->recv_io_context, sizeof(struct s2n_socket_read_io_context)));
return 0;
}
static int s2n_connection_wipe_io(struct s2n_connection *conn)
{
if (s2n_connection_is_managed_corked(conn) && conn->recv){
GUARD(s2n_socket_read_restore(conn));
}
if (s2n_connection_is_managed_corked(conn) && conn->send){
GUARD(s2n_socket_write_restore(conn));
}
/* Remove all I/O-related members */
GUARD(s2n_connection_free_io_contexts(conn));
conn->managed_io = 0;
conn->send = NULL;
conn->recv = NULL;
return 0;
}
static int s2n_connection_free_hashes(struct s2n_connection *conn)
{
/* Free all of the Connection's hash states */
GUARD(s2n_hash_free(&conn->handshake.md5));
GUARD(s2n_hash_free(&conn->handshake.sha1));
GUARD(s2n_hash_free(&conn->handshake.sha224));
GUARD(s2n_hash_free(&conn->handshake.sha256));
GUARD(s2n_hash_free(&conn->handshake.sha384));
GUARD(s2n_hash_free(&conn->handshake.sha512));
GUARD(s2n_hash_free(&conn->handshake.md5_sha1));
GUARD(s2n_hash_free(&conn->handshake.ccv_hash_copy));
GUARD(s2n_hash_free(&conn->handshake.prf_md5_hash_copy));
GUARD(s2n_hash_free(&conn->handshake.prf_sha1_hash_copy));
GUARD(s2n_hash_free(&conn->handshake.prf_tls12_hash_copy));
GUARD(s2n_hash_free(&conn->handshake.server_finished_copy));
GUARD(s2n_hash_free(&conn->prf_space.ssl3.md5));
GUARD(s2n_hash_free(&conn->prf_space.ssl3.sha1));
GUARD(s2n_hash_free(&conn->initial.signature_hash));
GUARD(s2n_hash_free(&conn->secure.signature_hash));
return 0;
}
static int s2n_connection_free_hmacs(struct s2n_connection *conn)
{
/* Free all of the Connection's HMAC states */
GUARD(s2n_hmac_free(&conn->initial.client_record_mac));
GUARD(s2n_hmac_free(&conn->initial.server_record_mac));
GUARD(s2n_hmac_free(&conn->initial.record_mac_copy_workspace));
GUARD(s2n_hmac_free(&conn->secure.client_record_mac));
GUARD(s2n_hmac_free(&conn->secure.server_record_mac));
GUARD(s2n_hmac_free(&conn->secure.record_mac_copy_workspace));
return 0;
}
static uint8_t s2n_default_verify_host(const char *host_name, size_t len, void *data)
{
/* if present, match server_name of the connection using rules
* outlined in RFC6125 6.4. */
struct s2n_connection *conn = data;
if (conn->server_name[0] == '\0') {
return 0;
}
/* complete match */
if (strlen(conn->server_name) == len &&
strncasecmp(conn->server_name, host_name, len) == 0) {
return 1;
}
/* match 1 level of wildcard */
if (len > 2 && host_name[0] == '*' && host_name[1] == '.') {
const char *suffix = strchr(conn->server_name, '.');
if (suffix == NULL) {
return 0;
}
if (strlen(suffix) == len - 1 &&
strncasecmp(suffix, host_name + 1, len - 1) == 0) {
return 1;
}
}
return 0;
}
int s2n_connection_free(struct s2n_connection *conn)
{
GUARD(s2n_connection_wipe_keys(conn));
GUARD(s2n_connection_free_keys(conn));
GUARD_AS_POSIX(s2n_psk_parameters_wipe(&conn->psk_params));
GUARD(s2n_prf_free(conn));
GUARD(s2n_connection_reset_hashes(conn));
GUARD(s2n_connection_free_hashes(conn));
GUARD(s2n_connection_reset_hmacs(conn));
GUARD(s2n_connection_free_hmacs(conn));
GUARD(s2n_connection_free_io_contexts(conn));
GUARD(s2n_free(&conn->client_ticket));
GUARD(s2n_free(&conn->status_response));
GUARD(s2n_free(&conn->our_quic_transport_parameters));
GUARD(s2n_free(&conn->peer_quic_transport_parameters));
GUARD(s2n_stuffer_free(&conn->in));
GUARD(s2n_stuffer_free(&conn->out));
GUARD(s2n_stuffer_free(&conn->handshake.io));
s2n_x509_validator_wipe(&conn->x509_validator);
GUARD(s2n_client_hello_free(&conn->client_hello));
GUARD(s2n_free(&conn->application_protocols_overridden));
GUARD(s2n_stuffer_free(&conn->cookie_stuffer));
GUARD(s2n_free_object((uint8_t **)&conn, sizeof(struct s2n_connection)));
return 0;
}
int s2n_connection_set_config(struct s2n_connection *conn, struct s2n_config *config)
{
notnull_check(conn);
notnull_check(config);
if (conn->config == config) {
return 0;
}
/* We only support one client certificate */
if (s2n_config_get_num_default_certs(config) > 1 && conn->mode == S2N_CLIENT) {
S2N_ERROR(S2N_ERR_TOO_MANY_CERTIFICATES);
}
s2n_x509_validator_wipe(&conn->x509_validator);
s2n_cert_auth_type auth_type = config->client_cert_auth_type;
if (conn->client_cert_auth_type_overridden) {
auth_type = conn->client_cert_auth_type;
}
int8_t dont_need_x509_validation = (conn->mode == S2N_SERVER) && (auth_type == S2N_CERT_AUTH_NONE);
if (config->disable_x509_validation || dont_need_x509_validation) {
GUARD(s2n_x509_validator_init_no_x509_validation(&conn->x509_validator));
}
else {
GUARD(s2n_x509_validator_init(&conn->x509_validator, &config->trust_store, config->check_ocsp));
if (!conn->verify_host_fn_overridden) {
if (config->verify_host != NULL) {
conn->verify_host_fn = config->verify_host;
conn->data_for_verify_host = config->data_for_verify_host;
} else {
conn->verify_host_fn = s2n_default_verify_host;
conn->data_for_verify_host = conn;
}
}
if (config->max_verify_cert_chain_depth_set) {
GUARD(s2n_x509_validator_set_max_chain_depth(&conn->x509_validator, config->max_verify_cert_chain_depth));
}
}
conn->config = config;
return 0;
}
int s2n_connection_set_ctx(struct s2n_connection *conn, void *ctx)
{
conn->context = ctx;
return 0;
}
void *s2n_connection_get_ctx(struct s2n_connection *conn)
{
return conn->context;
}
int s2n_connection_release_buffers(struct s2n_connection *conn)
{
notnull_check(conn);
PRECONDITION_POSIX(s2n_stuffer_validate(&conn->out));
PRECONDITION_POSIX(s2n_stuffer_validate(&conn->in));
ENSURE_POSIX(s2n_stuffer_is_consumed(&conn->out), S2N_ERR_STUFFER_HAS_UNPROCESSED_DATA);
GUARD(s2n_stuffer_resize(&conn->out, 0));
ENSURE_POSIX(s2n_stuffer_is_consumed(&conn->in), S2N_ERR_STUFFER_HAS_UNPROCESSED_DATA);
GUARD(s2n_stuffer_resize(&conn->in, 0));
POSTCONDITION_POSIX(s2n_stuffer_validate(&conn->out));
POSTCONDITION_POSIX(s2n_stuffer_validate(&conn->in));
return S2N_SUCCESS;
}
int s2n_connection_free_handshake(struct s2n_connection *conn)
{
/* We are done with the handshake */
GUARD(s2n_hash_reset(&conn->handshake.md5));
GUARD(s2n_hash_reset(&conn->handshake.sha1));
GUARD(s2n_hash_reset(&conn->handshake.sha224));
GUARD(s2n_hash_reset(&conn->handshake.sha256));
GUARD(s2n_hash_reset(&conn->handshake.sha384));
GUARD(s2n_hash_reset(&conn->handshake.sha512));
GUARD(s2n_hash_reset(&conn->handshake.md5_sha1));
GUARD(s2n_hash_reset(&conn->handshake.ccv_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.prf_md5_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.prf_sha1_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.prf_tls12_hash_copy));
GUARD(s2n_hash_reset(&conn->handshake.server_finished_copy));
/* Wipe the buffers we are going to free */
GUARD(s2n_stuffer_wipe(&conn->handshake.io));
GUARD(s2n_stuffer_wipe(&conn->client_hello.raw_message));
/* Truncate buffers to save memory, we are done with the handshake */
GUARD(s2n_stuffer_resize(&conn->handshake.io, 0));
GUARD(s2n_stuffer_resize(&conn->client_hello.raw_message, 0));
/* We can free extension data we no longer need */
GUARD(s2n_free(&conn->client_ticket));
GUARD(s2n_free(&conn->status_response));
GUARD(s2n_free(&conn->our_quic_transport_parameters));
GUARD(s2n_free(&conn->application_protocols_overridden));
GUARD(s2n_stuffer_free(&conn->cookie_stuffer));
return 0;
}
int s2n_connection_wipe(struct s2n_connection *conn)
{
/* First make a copy of everything we'd like to save, which isn't very much. */
int mode = conn->mode;
struct s2n_config *config = conn->config;
struct s2n_stuffer alert_in = {0};
struct s2n_stuffer reader_alert_out = {0};
struct s2n_stuffer writer_alert_out = {0};
struct s2n_stuffer client_ticket_to_decrypt = {0};
struct s2n_stuffer handshake_io = {0};
struct s2n_stuffer client_hello_raw_message = {0};
struct s2n_stuffer header_in = {0};
struct s2n_stuffer in = {0};
struct s2n_stuffer out = {0};
/* Session keys will be wiped. Preserve structs to avoid reallocation */
struct s2n_session_key initial_client_key = {0};
struct s2n_session_key initial_server_key = {0};
struct s2n_session_key secure_client_key = {0};
struct s2n_session_key secure_server_key = {0};
/* Parts of the PRF working space, hash states, and hmac states will be wiped. Preserve structs to avoid reallocation */
struct s2n_connection_prf_handles prf_handles = {0};
struct s2n_connection_hash_handles hash_handles = {0};
struct s2n_connection_hmac_handles hmac_handles = {0};
/* Wipe all of the sensitive stuff */
GUARD(s2n_connection_wipe_keys(conn));
GUARD(s2n_connection_reset_hashes(conn));
GUARD(s2n_connection_reset_hmacs(conn));
GUARD(s2n_stuffer_wipe(&conn->alert_in));
GUARD(s2n_stuffer_wipe(&conn->reader_alert_out));
GUARD(s2n_stuffer_wipe(&conn->writer_alert_out));
GUARD(s2n_stuffer_wipe(&conn->client_ticket_to_decrypt));
GUARD(s2n_stuffer_wipe(&conn->handshake.io));
GUARD(s2n_stuffer_wipe(&conn->client_hello.raw_message));
GUARD(s2n_stuffer_wipe(&conn->header_in));
GUARD(s2n_stuffer_wipe(&conn->in));
GUARD(s2n_stuffer_wipe(&conn->out));
GUARD_AS_POSIX(s2n_psk_parameters_wipe(&conn->psk_params));
/* Wipe the I/O-related info and restore the original socket if necessary */
GUARD(s2n_connection_wipe_io(conn));
GUARD(s2n_free(&conn->client_ticket));
GUARD(s2n_free(&conn->status_response));
GUARD(s2n_free(&conn->application_protocols_overridden));
GUARD(s2n_free(&conn->our_quic_transport_parameters));
GUARD(s2n_free(&conn->peer_quic_transport_parameters));
/* Allocate memory for handling handshakes */
GUARD(s2n_stuffer_resize(&conn->handshake.io, S2N_LARGE_RECORD_LENGTH));
/* Truncate the message buffers to save memory, we will dynamically resize it as needed */
GUARD(s2n_stuffer_resize(&conn->client_hello.raw_message, 0));
GUARD(s2n_stuffer_resize(&conn->in, 0));
GUARD(s2n_stuffer_resize(&conn->out, 0));
/* Remove context associated with connection */
conn->context = NULL;
conn->verify_host_fn_overridden = 0;
conn->verify_host_fn = NULL;
conn->data_for_verify_host = NULL;
/* Clone the stuffers */
/* ignore gcc 4.7 address warnings because dest is allocated on the stack */
/* pragma gcc diagnostic was added in gcc 4.6 */
#if S2N_GCC_VERSION_AT_LEAST(4,6,0)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Waddress"
#endif
memcpy_check(&alert_in, &conn->alert_in, sizeof(struct s2n_stuffer));
memcpy_check(&reader_alert_out, &conn->reader_alert_out, sizeof(struct s2n_stuffer));
memcpy_check(&writer_alert_out, &conn->writer_alert_out, sizeof(struct s2n_stuffer));
memcpy_check(&client_ticket_to_decrypt, &conn->client_ticket_to_decrypt, sizeof(struct s2n_stuffer));
memcpy_check(&handshake_io, &conn->handshake.io, sizeof(struct s2n_stuffer));
memcpy_check(&client_hello_raw_message, &conn->client_hello.raw_message, sizeof(struct s2n_stuffer));
memcpy_check(&header_in, &conn->header_in, sizeof(struct s2n_stuffer));
memcpy_check(&in, &conn->in, sizeof(struct s2n_stuffer));
memcpy_check(&out, &conn->out, sizeof(struct s2n_stuffer));
memcpy_check(&initial_client_key, &conn->initial.client_key, sizeof(struct s2n_session_key));
memcpy_check(&initial_server_key, &conn->initial.server_key, sizeof(struct s2n_session_key));
memcpy_check(&secure_client_key, &conn->secure.client_key, sizeof(struct s2n_session_key));
memcpy_check(&secure_server_key, &conn->secure.server_key, sizeof(struct s2n_session_key));
GUARD(s2n_connection_save_prf_state(&prf_handles, conn));
GUARD(s2n_connection_save_hash_state(&hash_handles, conn));
GUARD(s2n_connection_save_hmac_state(&hmac_handles, conn));
#if S2N_GCC_VERSION_AT_LEAST(4,6,0)
#pragma GCC diagnostic pop
#endif
GUARD(s2n_connection_zero(conn, mode, config));
memcpy_check(&conn->alert_in, &alert_in, sizeof(struct s2n_stuffer));
memcpy_check(&conn->reader_alert_out, &reader_alert_out, sizeof(struct s2n_stuffer));
memcpy_check(&conn->writer_alert_out, &writer_alert_out, sizeof(struct s2n_stuffer));
memcpy_check(&conn->client_ticket_to_decrypt, &client_ticket_to_decrypt, sizeof(struct s2n_stuffer));
memcpy_check(&conn->handshake.io, &handshake_io, sizeof(struct s2n_stuffer));
memcpy_check(&conn->client_hello.raw_message, &client_hello_raw_message, sizeof(struct s2n_stuffer));
memcpy_check(&conn->header_in, &header_in, sizeof(struct s2n_stuffer));
memcpy_check(&conn->in, &in, sizeof(struct s2n_stuffer));
memcpy_check(&conn->out, &out, sizeof(struct s2n_stuffer));
memcpy_check(&conn->initial.client_key, &initial_client_key, sizeof(struct s2n_session_key));
memcpy_check(&conn->initial.server_key, &initial_server_key, sizeof(struct s2n_session_key));
memcpy_check(&conn->secure.client_key, &secure_client_key, sizeof(struct s2n_session_key));
memcpy_check(&conn->secure.server_key, &secure_server_key, sizeof(struct s2n_session_key));
GUARD(s2n_connection_restore_prf_state(conn, &prf_handles));
GUARD(s2n_connection_restore_hash_state(conn, &hash_handles));
GUARD(s2n_connection_restore_hmac_state(conn, &hmac_handles));
/* Re-initialize hash and hmac states */
GUARD(s2n_connection_init_hashes(conn));
GUARD(s2n_connection_init_hmacs(conn));
GUARD_AS_POSIX(s2n_psk_parameters_init(&conn->psk_params));
/* Require all handshakes hashes. This set can be reduced as the handshake progresses. */
GUARD(s2n_handshake_require_all_hashes(&conn->handshake));
if (conn->mode == S2N_SERVER) {
/* Start with the highest protocol version so that the highest common protocol version can be selected */
/* during handshake. */
conn->server_protocol_version = s2n_highest_protocol_version;
conn->client_protocol_version = s2n_unknown_protocol_version;
conn->actual_protocol_version = s2n_unknown_protocol_version;
}
else {
/* For clients, also set actual_protocol_version. Record generation uses that value for the initial */
/* ClientHello record version. Not all servers ignore the record version in ClientHello. */
conn->server_protocol_version = s2n_unknown_protocol_version;
conn->client_protocol_version = s2n_highest_protocol_version;
conn->actual_protocol_version = s2n_highest_protocol_version;
}
return 0;
}
int s2n_connection_set_recv_ctx(struct s2n_connection *conn, void *ctx)
{
conn->recv_io_context = ctx;
return 0;
}
int s2n_connection_set_send_ctx(struct s2n_connection *conn, void *ctx)
{
conn->send_io_context = ctx;
return 0;
}
int s2n_connection_set_recv_cb(struct s2n_connection *conn, s2n_recv_fn recv)
{
conn->recv = recv;
return 0;
}
int s2n_connection_set_send_cb(struct s2n_connection *conn, s2n_send_fn send)
{
conn->send = send;
return 0;
}
int s2n_connection_get_client_cert_chain(struct s2n_connection *conn, uint8_t **der_cert_chain_out, uint32_t *cert_chain_len)
{
notnull_check(conn);
notnull_check(der_cert_chain_out);
notnull_check(cert_chain_len);
notnull_check(conn->secure.client_cert_chain.data);
*der_cert_chain_out = conn->secure.client_cert_chain.data;
*cert_chain_len = conn->secure.client_cert_chain.size;
return 0;
}
int s2n_connection_get_cipher_preferences(struct s2n_connection *conn, const struct s2n_cipher_preferences **cipher_preferences)
{
notnull_check(conn);
notnull_check(conn->config);
notnull_check(cipher_preferences);
if (conn->security_policy_override != NULL) {
*cipher_preferences = conn->security_policy_override->cipher_preferences;
} else if (conn->config->security_policy != NULL) {
*cipher_preferences = conn->config->security_policy->cipher_preferences;
} else {
S2N_ERROR(S2N_ERR_INVALID_CIPHER_PREFERENCES);
}
notnull_check(*cipher_preferences);
return 0;
}
int s2n_connection_get_security_policy(struct s2n_connection *conn, const struct s2n_security_policy **security_policy)
{
notnull_check(conn);
notnull_check(conn->config);
notnull_check(security_policy);
if (conn->security_policy_override != NULL) {
*security_policy = conn->security_policy_override;
} else if (conn->config->security_policy != NULL) {
*security_policy = conn->config->security_policy;
} else {
S2N_ERROR(S2N_ERR_INVALID_SECURITY_POLICY);
}
notnull_check(*security_policy);
return 0;
}
int s2n_connection_get_kem_preferences(struct s2n_connection *conn, const struct s2n_kem_preferences **kem_preferences)
{
notnull_check(conn);
notnull_check(conn->config);
notnull_check(kem_preferences);
if (conn->security_policy_override != NULL) {
*kem_preferences = conn->security_policy_override->kem_preferences;
} else if (conn->config->security_policy != NULL) {
*kem_preferences = conn->config->security_policy->kem_preferences;
} else {
S2N_ERROR(S2N_ERR_INVALID_KEM_PREFERENCES);
}
notnull_check(*kem_preferences);
return 0;
}
int s2n_connection_get_signature_preferences(struct s2n_connection *conn, const struct s2n_signature_preferences **signature_preferences)
{
notnull_check(conn);
notnull_check(conn->config);
notnull_check(signature_preferences);
if (conn->security_policy_override != NULL) {
*signature_preferences = conn->security_policy_override->signature_preferences;
} else if (conn->config->security_policy != NULL) {
*signature_preferences = conn->config->security_policy->signature_preferences;
} else {
S2N_ERROR(S2N_ERR_INVALID_SIGNATURE_ALGORITHMS_PREFERENCES);
}
notnull_check(*signature_preferences);
return 0;
}
int s2n_connection_get_ecc_preferences(struct s2n_connection *conn, const struct s2n_ecc_preferences **ecc_preferences)
{
notnull_check(conn);
notnull_check(conn->config);
notnull_check(ecc_preferences);
if (conn->security_policy_override != NULL) {
*ecc_preferences = conn->security_policy_override->ecc_preferences;
} else if (conn->config->security_policy != NULL) {
*ecc_preferences = conn->config->security_policy->ecc_preferences;
} else {
S2N_ERROR(S2N_ERR_INVALID_ECC_PREFERENCES);
}
notnull_check(*ecc_preferences);
return 0;
}
int s2n_connection_get_protocol_preferences(struct s2n_connection *conn, struct s2n_blob **protocol_preferences)
{
notnull_check(conn);
notnull_check(protocol_preferences);
*protocol_preferences = NULL;
if (conn->application_protocols_overridden.size > 0) {
*protocol_preferences = &conn->application_protocols_overridden;
} else {
*protocol_preferences = &conn->config->application_protocols;
}
notnull_check(*protocol_preferences);
return 0;
}
int s2n_connection_get_client_auth_type(struct s2n_connection *conn, s2n_cert_auth_type *client_cert_auth_type)
{
notnull_check(conn);
notnull_check(client_cert_auth_type);
if (conn->client_cert_auth_type_overridden) {
*client_cert_auth_type = conn->client_cert_auth_type;
} else {
*client_cert_auth_type = conn->config->client_cert_auth_type;
}
return 0;
}
int s2n_connection_set_client_auth_type(struct s2n_connection *conn, s2n_cert_auth_type client_cert_auth_type)
{
conn->client_cert_auth_type_overridden = 1;
conn->client_cert_auth_type = client_cert_auth_type;
return 0;
}
int s2n_connection_set_read_fd(struct s2n_connection *conn, int rfd)
{
struct s2n_blob ctx_mem = {0};
struct s2n_socket_read_io_context *peer_socket_ctx;
GUARD(s2n_alloc(&ctx_mem, sizeof(struct s2n_socket_read_io_context)));
GUARD(s2n_blob_zero(&ctx_mem));
peer_socket_ctx = (struct s2n_socket_read_io_context *)(void *)ctx_mem.data;
peer_socket_ctx->fd = rfd;
s2n_connection_set_recv_cb(conn, s2n_socket_read);
s2n_connection_set_recv_ctx(conn, peer_socket_ctx);
conn->managed_io = 1;
/* This is only needed if the user is using corked io.
* Take the snapshot in case optimized io is enabled after setting the fd.
*/
GUARD(s2n_socket_read_snapshot(conn));
return 0;
}
int s2n_connection_set_write_fd(struct s2n_connection *conn, int wfd)
{
struct s2n_blob ctx_mem = {0};
struct s2n_socket_write_io_context *peer_socket_ctx;
GUARD(s2n_alloc(&ctx_mem, sizeof(struct s2n_socket_write_io_context)));
peer_socket_ctx = (struct s2n_socket_write_io_context *)(void *)ctx_mem.data;
peer_socket_ctx->fd = wfd;
s2n_connection_set_send_cb(conn, s2n_socket_write);
s2n_connection_set_send_ctx(conn, peer_socket_ctx);
conn->managed_io = 1;
/* This is only needed if the user is using corked io.
* Take the snapshot in case optimized io is enabled after setting the fd.
*/
GUARD(s2n_socket_write_snapshot(conn));
uint8_t ipv6;
if (0 == s2n_socket_is_ipv6(wfd, &ipv6)) {
conn->ipv6 = (ipv6 ? 1 : 0);
}
conn->write_fd_broken = 0;
return 0;
}
int s2n_connection_set_fd(struct s2n_connection *conn, int fd)
{
GUARD(s2n_connection_set_read_fd(conn, fd));
GUARD(s2n_connection_set_write_fd(conn, fd));
return 0;
}
int s2n_connection_use_corked_io(struct s2n_connection *conn)
{
if (!conn->managed_io) {
/* Caller shouldn't be trying to set s2n IO corked on non-s2n-managed IO */
S2N_ERROR(S2N_ERR_CORK_SET_ON_UNMANAGED);
}
conn->corked_io = 1;
return 0;
}
uint64_t s2n_connection_get_wire_bytes_in(struct s2n_connection *conn)
{
return conn->wire_bytes_in;
}
uint64_t s2n_connection_get_wire_bytes_out(struct s2n_connection *conn)
{
return conn->wire_bytes_out;
}
const char *s2n_connection_get_cipher(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
notnull_check_ptr(conn->secure.cipher_suite);
return conn->secure.cipher_suite->name;
}
const char *s2n_connection_get_curve(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
if (!conn->secure.server_ecc_evp_params.negotiated_curve) {
return "NONE";
}
return conn->secure.server_ecc_evp_params.negotiated_curve->name;
}
const char *s2n_connection_get_kem_name(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
if (!conn->secure.kem_params.kem) {
return "NONE";
}
return conn->secure.kem_params.kem->name;
}
const char *s2n_connection_get_kem_group_name(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
if (!conn->secure.chosen_client_kem_group_params || !conn->secure.chosen_client_kem_group_params->kem_group) {
return "NONE";
}
return conn->secure.chosen_client_kem_group_params->kem_group->name;
}
int s2n_connection_get_client_protocol_version(struct s2n_connection *conn)
{
notnull_check(conn);
return conn->client_protocol_version;
}
int s2n_connection_get_server_protocol_version(struct s2n_connection *conn)
{
notnull_check(conn);
return conn->server_protocol_version;
}
int s2n_connection_get_actual_protocol_version(struct s2n_connection *conn)
{
notnull_check(conn);
return conn->actual_protocol_version;
}
int s2n_connection_get_client_hello_version(struct s2n_connection *conn)
{
notnull_check(conn);
return conn->client_hello_version;
}
int s2n_connection_client_cert_used(struct s2n_connection *conn)
{
notnull_check(conn);
if ((conn->handshake.handshake_type & CLIENT_AUTH) && is_handshake_complete(conn)) {
if (conn->handshake.handshake_type & NO_CLIENT_CERT) {
return 0;
}
return 1;
}
return 0;
}
int s2n_connection_get_alert(struct s2n_connection *conn)
{
notnull_check(conn);
S2N_ERROR_IF(s2n_stuffer_data_available(&conn->alert_in) != 2, S2N_ERR_NO_ALERT);
uint8_t alert_code = 0;
GUARD(s2n_stuffer_read_uint8(&conn->alert_in, &alert_code));
GUARD(s2n_stuffer_read_uint8(&conn->alert_in, &alert_code));
return alert_code;
}
int s2n_set_server_name(struct s2n_connection *conn, const char *server_name)
{
notnull_check(conn);
notnull_check(server_name);
S2N_ERROR_IF(conn->mode != S2N_CLIENT, S2N_ERR_CLIENT_MODE);
int len = strlen(server_name);
S2N_ERROR_IF(len > S2N_MAX_SERVER_NAME, S2N_ERR_SERVER_NAME_TOO_LONG);
memcpy_check(conn->server_name, server_name, len);
return 0;
}
const char *s2n_get_server_name(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
if (conn->server_name[0]) {
return conn->server_name;
}
GUARD_PTR(s2n_extension_process(&s2n_client_server_name_extension, conn, &conn->client_hello.extensions));
if (!conn->server_name[0]) {
return NULL;
}
return conn->server_name;
}
const char *s2n_get_application_protocol(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
if (strlen(conn->application_protocol) == 0) {
return NULL;
}
return conn->application_protocol;
}
int s2n_connection_get_session_id_length(struct s2n_connection *conn)
{
notnull_check(conn);
return conn->session_id_len;
}
int s2n_connection_get_session_id(struct s2n_connection *conn, uint8_t *session_id, size_t max_length)
{
notnull_check(conn);
notnull_check(session_id);
int session_id_len = s2n_connection_get_session_id_length(conn);
S2N_ERROR_IF(session_id_len > max_length, S2N_ERR_SESSION_ID_TOO_LONG);
memcpy_check(session_id, conn->session_id, session_id_len);
return session_id_len;
}
int s2n_connection_set_blinding(struct s2n_connection *conn, s2n_blinding blinding)
{
notnull_check(conn);
conn->blinding = blinding;
return 0;
}
#define ONE_S INT64_C(1000000000)
#define TEN_S INT64_C(10000000000)
uint64_t s2n_connection_get_delay(struct s2n_connection *conn)
{
if (!conn->delay) {
return 0;
}
uint64_t elapsed;
/* This will cast -1 to max uint64_t */
GUARD_AS_POSIX(s2n_timer_elapsed(conn->config, &conn->write_timer, &elapsed));
if (elapsed > conn->delay) {
return 0;
}
return conn->delay - elapsed;
}
int s2n_connection_kill(struct s2n_connection *conn)
{
notnull_check(conn);
conn->closed = 1;
/* Delay between 10 and 30 seconds in nanoseconds */
int64_t min = TEN_S, max = 3 * TEN_S;
/* Keep track of the delay so that it can be enforced */
uint64_t rand_delay = 0;
GUARD_AS_POSIX(s2n_public_random(max - min, &rand_delay));
conn->delay = min + rand_delay;
/* Restart the write timer */
GUARD_AS_POSIX(s2n_timer_start(conn->config, &conn->write_timer));
if (conn->blinding == S2N_BUILT_IN_BLINDING) {
struct timespec sleep_time = {.tv_sec = conn->delay / ONE_S,.tv_nsec = conn->delay % ONE_S };
int r;
do {
r = nanosleep(&sleep_time, &sleep_time);
}
while (r != 0);
}
return 0;
}
const uint8_t *s2n_connection_get_ocsp_response(struct s2n_connection *conn, uint32_t * length)
{
notnull_check_ptr(conn);
notnull_check_ptr(length);
*length = conn->status_response.size;
return conn->status_response.data;
}
int s2n_connection_prefer_throughput(struct s2n_connection *conn)
{
notnull_check(conn);
if (!conn->mfl_code) {
conn->max_outgoing_fragment_length = S2N_LARGE_FRAGMENT_LENGTH;
}
return 0;
}
int s2n_connection_prefer_low_latency(struct s2n_connection *conn)
{
notnull_check(conn);
if (!conn->mfl_code) {
conn->max_outgoing_fragment_length = S2N_SMALL_FRAGMENT_LENGTH;
}
return 0;
}
int s2n_connection_set_dynamic_record_threshold(struct s2n_connection *conn, uint32_t resize_threshold, uint16_t timeout_threshold)
{
notnull_check(conn);
S2N_ERROR_IF(resize_threshold > S2N_TLS_MAX_RESIZE_THRESHOLD, S2N_ERR_INVALID_DYNAMIC_THRESHOLD);
conn->dynamic_record_resize_threshold = resize_threshold;
conn->dynamic_record_timeout_threshold = timeout_threshold;
return 0;
}
int s2n_connection_set_verify_host_callback(struct s2n_connection *conn, s2n_verify_host_fn verify_host_fn, void *data) {
notnull_check(conn);
conn->verify_host_fn = verify_host_fn;
conn->data_for_verify_host = data;
conn->verify_host_fn_overridden = 1;
return 0;
}
int s2n_connection_recv_stuffer(struct s2n_stuffer *stuffer, struct s2n_connection *conn, uint32_t len)
{
notnull_check(conn->recv);
/* Make sure we have enough space to write */
GUARD(s2n_stuffer_reserve_space(stuffer, len));
int r = 0;
do {
errno = 0;
r = conn->recv(conn->recv_io_context, stuffer->blob.data + stuffer->write_cursor, len);
S2N_ERROR_IF(r < 0 && errno != EINTR, S2N_ERR_RECV_STUFFER_FROM_CONN);
} while (r < 0);
/* Record just how many bytes we have written */
GUARD(s2n_stuffer_skip_write(stuffer, r));
return r;
}
int s2n_connection_send_stuffer(struct s2n_stuffer *stuffer, struct s2n_connection *conn, uint32_t len)
{
notnull_check(conn);
notnull_check(conn->send);
if (conn->write_fd_broken) {
S2N_ERROR(S2N_ERR_SEND_STUFFER_TO_CONN);
}
/* Make sure we even have the data */
S2N_ERROR_IF(s2n_stuffer_data_available(stuffer) < len, S2N_ERR_STUFFER_OUT_OF_DATA);
int w = 0;
do {
errno = 0;
w = conn->send(conn->send_io_context, stuffer->blob.data + stuffer->read_cursor, len);
if (w < 0 && errno == EPIPE) {
conn->write_fd_broken = 1;
}
S2N_ERROR_IF(w < 0 && errno != EINTR, S2N_ERR_SEND_STUFFER_TO_CONN);
} while (w < 0);
GUARD(s2n_stuffer_skip_read(stuffer, w));
return w;
}
int s2n_connection_is_managed_corked(const struct s2n_connection *s2n_connection)
{
notnull_check(s2n_connection);
return (s2n_connection->managed_io && s2n_connection->corked_io);
}
const uint8_t *s2n_connection_get_sct_list(struct s2n_connection *conn, uint32_t *length)
{
if (!length) {
return NULL;
}
*length = conn->ct_response.size;
return conn->ct_response.data;
}
int s2n_connection_is_client_auth_enabled(struct s2n_connection *s2n_connection)
{
s2n_cert_auth_type auth_type;
GUARD(s2n_connection_get_client_auth_type(s2n_connection, &auth_type));
return (auth_type != S2N_CERT_AUTH_NONE);
}
struct s2n_cert_chain_and_key *s2n_connection_get_selected_cert(struct s2n_connection *conn)
{
notnull_check_ptr(conn);
return conn->handshake_params.our_chain_and_key;
}
uint8_t s2n_connection_get_protocol_version(const struct s2n_connection *conn)
{
if (conn == NULL) {
return S2N_UNKNOWN_PROTOCOL_VERSION;
}
if (conn->actual_protocol_version != S2N_UNKNOWN_PROTOCOL_VERSION) {
return conn->actual_protocol_version;
}
if (conn->mode == S2N_CLIENT) {
return conn->client_protocol_version;
}
return conn->server_protocol_version;
}
int s2n_connection_set_keyshare_by_name_for_testing(struct s2n_connection *conn, const char* curve_name)
{
ENSURE_POSIX(S2N_IN_TEST, S2N_ERR_NOT_IN_TEST);
notnull_check(conn);
if (!strcmp(curve_name, "none")) {
S2N_SET_KEY_SHARE_LIST_EMPTY(conn->preferred_key_shares);
return S2N_SUCCESS;
}
const struct s2n_ecc_preferences *ecc_pref = NULL;
GUARD(s2n_connection_get_ecc_preferences(conn, &ecc_pref));
notnull_check(ecc_pref);
for (size_t i = 0; i < ecc_pref->count; i++) {
if (!strcmp(ecc_pref->ecc_curves[i]->name, curve_name)) {
S2N_SET_KEY_SHARE_REQUEST(conn->preferred_key_shares, i);
return S2N_SUCCESS;
}
}
S2N_ERROR(S2N_ERR_ECDHE_UNSUPPORTED_CURVE);
}
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