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|
/*
* Copyright (C) 2002-2015 Free Software Foundation, Inc.
* Copyright (C) 2014-2015 Nikos Mavrogiannopoulos
*
* Author: Nikos Mavrogiannopoulos
*
* This file is part of GnuTLS.
*
* The GnuTLS is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>
*
*/
/* Functions to manipulate the session (gnutls_int.h), and some other stuff
* are included here. The file's name is traditionally gnutls_state even if the
* state has been renamed to session.
*/
#include <gnutls_int.h>
#include <gnutls_errors.h>
#include <gnutls_auth.h>
#include <gnutls_num.h>
#include <gnutls_datum.h>
#include <gnutls_db.h>
#include <gnutls_record.h>
#include <gnutls_handshake.h>
#include <gnutls_dh.h>
#include <gnutls_buffers.h>
#include <gnutls_mbuffers.h>
#include <gnutls_state.h>
#include <gnutls_constate.h>
#include <auth/cert.h>
#include <auth/anon.h>
#include <auth/psk.h>
#include <algorithms.h>
#include <gnutls_extensions.h>
#include <system.h>
#include <random.h>
#include <fips.h>
#include <gnutls/dtls.h>
/* These should really be static, but src/tests.c calls them. Make
them public functions? */
void
_gnutls_rsa_pms_set_version(gnutls_session_t session,
unsigned char major, unsigned char minor);
void
_gnutls_session_cert_type_set(gnutls_session_t session,
gnutls_certificate_type_t ct)
{
_gnutls_handshake_log
("HSK[%p]: Selected certificate type %s (%d)\n", session,
gnutls_certificate_type_get_name(ct), ct);
session->security_parameters.cert_type = ct;
}
void
_gnutls_session_ecc_curve_set(gnutls_session_t session,
gnutls_ecc_curve_t c)
{
_gnutls_handshake_log("HSK[%p]: Selected ECC curve %s (%d)\n",
session, gnutls_ecc_curve_get_name(c), c);
session->security_parameters.ecc_curve = c;
}
/**
* gnutls_cipher_get:
* @session: is a #gnutls_session_t type.
*
* Get currently used cipher.
*
* Returns: the currently used cipher, a #gnutls_cipher_algorithm_t
* type.
**/
gnutls_cipher_algorithm_t gnutls_cipher_get(gnutls_session_t session)
{
record_parameters_st *record_params;
int ret;
ret =
_gnutls_epoch_get(session, EPOCH_READ_CURRENT, &record_params);
if (ret < 0)
return gnutls_assert_val(GNUTLS_CIPHER_NULL);
return record_params->cipher->id;
}
/**
* gnutls_certificate_type_get:
* @session: is a #gnutls_session_t type.
*
* The certificate type is by default X.509, unless it is negotiated
* as a TLS extension.
*
* Returns: the currently used #gnutls_certificate_type_t certificate
* type.
**/
gnutls_certificate_type_t
gnutls_certificate_type_get(gnutls_session_t session)
{
return session->security_parameters.cert_type;
}
/**
* gnutls_kx_get:
* @session: is a #gnutls_session_t type.
*
* Get currently used key exchange algorithm.
*
* Returns: the key exchange algorithm used in the last handshake, a
* #gnutls_kx_algorithm_t value.
**/
gnutls_kx_algorithm_t gnutls_kx_get(gnutls_session_t session)
{
return session->security_parameters.kx_algorithm;
}
/**
* gnutls_mac_get:
* @session: is a #gnutls_session_t type.
*
* Get currently used MAC algorithm.
*
* Returns: the currently used mac algorithm, a
* #gnutls_mac_algorithm_t value.
**/
gnutls_mac_algorithm_t gnutls_mac_get(gnutls_session_t session)
{
record_parameters_st *record_params;
int ret;
ret =
_gnutls_epoch_get(session, EPOCH_READ_CURRENT, &record_params);
if (ret < 0)
return gnutls_assert_val(GNUTLS_MAC_NULL);
return record_params->mac->id;
}
/**
* gnutls_compression_get:
* @session: is a #gnutls_session_t type.
*
* Get currently used compression algorithm.
*
* Returns: the currently used compression method, a
* #gnutls_compression_method_t value.
**/
gnutls_compression_method_t
gnutls_compression_get(gnutls_session_t session)
{
record_parameters_st *record_params;
int ret;
ret =
_gnutls_epoch_get(session, EPOCH_READ_CURRENT, &record_params);
if (ret < 0)
return gnutls_assert_val(GNUTLS_COMP_NULL);
return record_params->compression_algorithm;
}
/* Check if the given certificate type is supported.
* This means that it is enabled by the priority functions,
* and a matching certificate exists.
*/
int
_gnutls_session_cert_type_supported(gnutls_session_t session,
gnutls_certificate_type_t cert_type)
{
unsigned i;
unsigned cert_found = 0;
gnutls_certificate_credentials_t cred;
if (session->security_parameters.entity == GNUTLS_SERVER) {
cred = (gnutls_certificate_credentials_t)
_gnutls_get_cred(session, GNUTLS_CRD_CERTIFICATE);
if (cred == NULL)
return GNUTLS_E_UNSUPPORTED_CERTIFICATE_TYPE;
if (cred->get_cert_callback == NULL && cred->get_cert_callback2 == NULL) {
for (i = 0; i < cred->ncerts; i++) {
if (cred->certs[i].cert_list[0].type ==
cert_type) {
cert_found = 1;
break;
}
}
if (cert_found == 0)
/* no certificate is of that type.
*/
return
GNUTLS_E_UNSUPPORTED_CERTIFICATE_TYPE;
}
}
if (session->internals.priorities.cert_type.algorithms == 0
&& cert_type == DEFAULT_CERT_TYPE)
return 0;
for (i = 0; i < session->internals.priorities.cert_type.algorithms;
i++) {
if (session->internals.priorities.cert_type.priority[i] ==
cert_type) {
return 0; /* ok */
}
}
return GNUTLS_E_UNSUPPORTED_CERTIFICATE_TYPE;
}
/* this function deinitializes all the internal parameters stored
* in a session struct.
*/
inline static void deinit_internal_params(gnutls_session_t session)
{
#if defined(ENABLE_DHE) || defined(ENABLE_ANON)
if (session->internals.params.free_dh_params)
gnutls_dh_params_deinit(session->internals.params.
dh_params);
#endif
_gnutls_handshake_hash_buffers_clear(session);
memset(&session->internals.params, 0,
sizeof(session->internals.params));
}
/* This function will clear all the variables in internals
* structure within the session, which depend on the current handshake.
* This is used to allow further handshakes.
*/
static void _gnutls_handshake_internal_state_init(gnutls_session_t session)
{
session->internals.extensions_sent_size = 0;
/* by default no selected certificate */
session->internals.adv_version_major = 0;
session->internals.adv_version_minor = 0;
session->internals.direction = 0;
/* use out of band data for the last
* handshake messages received.
*/
session->internals.last_handshake_in = -1;
session->internals.last_handshake_out = -1;
session->internals.resumable = RESUME_TRUE;
session->internals.handshake_large_loops = 0;
session->internals.dtls.hsk_read_seq = 0;
session->internals.dtls.hsk_write_seq = 0;
}
void _gnutls_handshake_internal_state_clear(gnutls_session_t session)
{
_gnutls_handshake_internal_state_init(session);
deinit_internal_params(session);
_gnutls_epoch_gc(session);
session->internals.handshake_endtime = 0;
session->internals.handshake_in_progress = 0;
}
/**
* gnutls_init:
* @session: is a pointer to a #gnutls_session_t type.
* @flags: indicate if this session is to be used for server or client.
*
* This function initializes the current session to null. Every
* session must be initialized before use, so internal structures can
* be allocated. This function allocates structures which can only
* be free'd by calling gnutls_deinit(). Returns %GNUTLS_E_SUCCESS (0) on success.
*
* @flags can be one of %GNUTLS_CLIENT, %GNUTLS_SERVER, %GNUTLS_DATAGRAM,
* %GNUTLS_NONBLOCK or %GNUTLS_NOSIGNAL (since 3.4.2).
*
* The flag %GNUTLS_NO_REPLAY_PROTECTION will disable any
* replay protection in DTLS mode. That must only used when
* replay protection is achieved using other means.
*
* Note that since version 3.1.2 this function enables some common
* TLS extensions such as session tickets and OCSP certificate status
* request in client side by default. To prevent that use the %GNUTLS_NO_EXTENSIONS
* flag.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
**/
int gnutls_init(gnutls_session_t * session, unsigned int flags)
{
int ret;
record_parameters_st *epoch;
FAIL_IF_LIB_ERROR;
*session = gnutls_calloc(1, sizeof(struct gnutls_session_int));
if (*session == NULL)
return GNUTLS_E_MEMORY_ERROR;
ret = _gnutls_epoch_alloc(*session, 0, &epoch);
if (ret < 0) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
/* Set all NULL algos on epoch 0 */
_gnutls_epoch_set_null_algos(*session, epoch);
(*session)->security_parameters.epoch_next = 1;
(*session)->security_parameters.entity =
(flags & GNUTLS_SERVER ? GNUTLS_SERVER : GNUTLS_CLIENT);
/* the default certificate type for TLS */
(*session)->security_parameters.cert_type = DEFAULT_CERT_TYPE;
/* Initialize buffers */
_gnutls_buffer_init(&(*session)->internals.handshake_hash_buffer);
_gnutls_buffer_init(&(*session)->internals.hb_remote_data);
_gnutls_buffer_init(&(*session)->internals.hb_local_data);
_gnutls_buffer_init(&(*session)->internals.record_presend_buffer);
_mbuffer_head_init(&(*session)->internals.record_buffer);
_mbuffer_head_init(&(*session)->internals.record_send_buffer);
_mbuffer_head_init(&(*session)->internals.record_recv_buffer);
_mbuffer_head_init(&(*session)->internals.handshake_send_buffer);
_gnutls_handshake_recv_buffer_init(*session);
(*session)->internals.expire_time = DEFAULT_EXPIRE_TIME; /* one hour default */
gnutls_handshake_set_max_packet_length((*session),
MAX_HANDSHAKE_PACKET_SIZE);
/* set the socket pointers to -1;
*/
(*session)->internals.transport_recv_ptr =
(gnutls_transport_ptr_t) - 1;
(*session)->internals.transport_send_ptr =
(gnutls_transport_ptr_t) - 1;
/* set the default maximum record size for TLS
*/
(*session)->security_parameters.max_record_recv_size =
DEFAULT_MAX_RECORD_SIZE;
(*session)->security_parameters.max_record_send_size =
DEFAULT_MAX_RECORD_SIZE;
/* everything else not initialized here is initialized
* as NULL or 0. This is why calloc is used.
*/
_gnutls_handshake_internal_state_init(*session);
/* emulate old gnutls behavior for old applications that do not use the priority_*
* functions.
*/
(*session)->internals.priorities.sr = SR_PARTIAL;
#ifdef HAVE_WRITEV
#ifdef MSG_NOSIGNAL
if (flags & GNUTLS_NO_SIGNAL)
gnutls_transport_set_vec_push_function(*session, system_writev_nosignal);
else
#endif
gnutls_transport_set_vec_push_function(*session, system_writev);
#else
gnutls_transport_set_push_function(*session, system_write);
#endif
(*session)->internals.pull_timeout_func = gnutls_system_recv_timeout;
(*session)->internals.pull_func = system_read;
(*session)->internals.errno_func = system_errno;
/* heartbeat timeouts */
(*session)->internals.hb_retrans_timeout_ms = 1000;
(*session)->internals.hb_total_timeout_ms = 60000;
if (flags & GNUTLS_DATAGRAM) {
(*session)->internals.dtls.mtu = DTLS_DEFAULT_MTU;
(*session)->internals.transport = GNUTLS_DGRAM;
gnutls_dtls_set_timeouts(*session, DTLS_RETRANS_TIMEOUT, 60000);
} else {
(*session)->internals.transport = GNUTLS_STREAM;
}
if (flags & GNUTLS_NONBLOCK)
(*session)->internals.blocking = 0;
else
(*session)->internals.blocking = 1;
/* Enable useful extensions */
if ((flags & GNUTLS_CLIENT) && !(flags & GNUTLS_NO_EXTENSIONS)) {
#ifdef ENABLE_SESSION_TICKETS
gnutls_session_ticket_enable_client(*session);
#endif
#ifdef ENABLE_OCSP
gnutls_ocsp_status_request_enable_client(*session, NULL, 0,
NULL);
#endif
}
if (!(flags & GNUTLS_NO_EXTENSIONS))
(*session)->internals.try_ext_master_secret = 1;
if (flags & GNUTLS_NO_REPLAY_PROTECTION)
(*session)->internals.no_replay_protection = 1;
return 0;
}
/* returns RESUME_FALSE or RESUME_TRUE.
*/
int _gnutls_session_is_resumable(gnutls_session_t session)
{
return session->internals.resumable;
}
/**
* gnutls_deinit:
* @session: is a #gnutls_session_t type.
*
* This function clears all buffers associated with the @session.
* This function will also remove session data from the session
* database if the session was terminated abnormally.
**/
void gnutls_deinit(gnutls_session_t session)
{
unsigned int i;
if (session == NULL)
return;
/* remove auth info firstly */
_gnutls_free_auth_info(session);
_gnutls_handshake_internal_state_clear(session);
_gnutls_handshake_io_buffer_clear(session);
_gnutls_ext_free_session_data(session);
for (i = 0; i < MAX_EPOCH_INDEX; i++)
if (session->record_parameters[i] != NULL) {
_gnutls_epoch_free(session,
session->record_parameters[i]);
session->record_parameters[i] = NULL;
}
_gnutls_buffer_clear(&session->internals.handshake_hash_buffer);
_gnutls_buffer_clear(&session->internals.hb_remote_data);
_gnutls_buffer_clear(&session->internals.hb_local_data);
_gnutls_buffer_clear(&session->internals.record_presend_buffer);
_mbuffer_head_clear(&session->internals.record_buffer);
_mbuffer_head_clear(&session->internals.record_recv_buffer);
_mbuffer_head_clear(&session->internals.record_send_buffer);
gnutls_credentials_clear(session);
_gnutls_selected_certs_deinit(session);
gnutls_pk_params_release(&session->key.ecdh_params);
gnutls_pk_params_release(&session->key.dh_params);
zrelease_temp_mpi_key(&session->key.ecdh_x);
zrelease_temp_mpi_key(&session->key.ecdh_y);
zrelease_temp_mpi_key(&session->key.client_Y);
zrelease_temp_mpi_key(&session->key.srp_p);
zrelease_temp_mpi_key(&session->key.srp_g);
zrelease_temp_mpi_key(&session->key.srp_key);
zrelease_temp_mpi_key(&session->key.u);
zrelease_temp_mpi_key(&session->key.a);
zrelease_temp_mpi_key(&session->key.x);
zrelease_temp_mpi_key(&session->key.A);
zrelease_temp_mpi_key(&session->key.B);
zrelease_temp_mpi_key(&session->key.b);
/* RSA */
zrelease_temp_mpi_key(&session->key.rsa[0]);
zrelease_temp_mpi_key(&session->key.rsa[1]);
_gnutls_free_temp_key_datum(&session->key.key);
gnutls_free(session);
}
/* Returns the minimum prime bits that are acceptable.
*/
int _gnutls_dh_set_peer_public(gnutls_session_t session, bigint_t public)
{
dh_info_st *dh;
int ret;
switch (gnutls_auth_get_type(session)) {
case GNUTLS_CRD_ANON:
{
anon_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_ANON);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
dh = &info->dh;
break;
}
case GNUTLS_CRD_PSK:
{
psk_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_PSK);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
dh = &info->dh;
break;
}
case GNUTLS_CRD_CERTIFICATE:
{
cert_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_CERTIFICATE);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
dh = &info->dh;
break;
}
default:
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
}
if (dh->public_key.data)
_gnutls_free_datum(&dh->public_key);
ret = _gnutls_mpi_dprint_lz(public, &dh->public_key);
if (ret < 0) {
gnutls_assert();
return ret;
}
return 0;
}
int _gnutls_dh_set_secret_bits(gnutls_session_t session, unsigned bits)
{
switch (gnutls_auth_get_type(session)) {
case GNUTLS_CRD_ANON:
{
anon_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_ANON);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
info->dh.secret_bits = bits;
break;
}
case GNUTLS_CRD_PSK:
{
psk_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_PSK);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
info->dh.secret_bits = bits;
break;
}
case GNUTLS_CRD_CERTIFICATE:
{
cert_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_CERTIFICATE);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
info->dh.secret_bits = bits;
break;
default:
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
}
}
return 0;
}
/* Sets the prime and the generator in the auth info structure.
*/
int
_gnutls_dh_set_group(gnutls_session_t session, bigint_t gen,
bigint_t prime)
{
dh_info_st *dh;
int ret;
switch (gnutls_auth_get_type(session)) {
case GNUTLS_CRD_ANON:
{
anon_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_ANON);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
dh = &info->dh;
break;
}
case GNUTLS_CRD_PSK:
{
psk_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_PSK);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
dh = &info->dh;
break;
}
case GNUTLS_CRD_CERTIFICATE:
{
cert_auth_info_t info;
info = _gnutls_get_auth_info(session, GNUTLS_CRD_CERTIFICATE);
if (info == NULL)
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
dh = &info->dh;
break;
}
default:
return gnutls_assert_val(GNUTLS_E_INTERNAL_ERROR);
}
if (dh->prime.data)
_gnutls_free_datum(&dh->prime);
if (dh->generator.data)
_gnutls_free_datum(&dh->generator);
/* prime
*/
ret = _gnutls_mpi_dprint_lz(prime, &dh->prime);
if (ret < 0) {
gnutls_assert();
return ret;
}
/* generator
*/
ret = _gnutls_mpi_dprint_lz(gen, &dh->generator);
if (ret < 0) {
gnutls_assert();
_gnutls_free_datum(&dh->prime);
return ret;
}
return 0;
}
#ifdef ENABLE_OPENPGP
/**
* gnutls_openpgp_send_cert:
* @session: a #gnutls_session_t type.
* @status: is one of GNUTLS_OPENPGP_CERT, or GNUTLS_OPENPGP_CERT_FINGERPRINT
*
* This function will order gnutls to send the key fingerprint
* instead of the key in the initial handshake procedure. This should
* be used with care and only when there is indication or knowledge
* that the server can obtain the client's key.
**/
void
gnutls_openpgp_send_cert(gnutls_session_t session,
gnutls_openpgp_crt_status_t status)
{
session->internals.pgp_fingerprint = status;
}
#endif
/**
* gnutls_certificate_send_x509_rdn_sequence:
* @session: a #gnutls_session_t type.
* @status: is 0 or 1
*
* If status is non zero, this function will order gnutls not to send
* the rdnSequence in the certificate request message. That is the
* server will not advertise its trusted CAs to the peer. If status
* is zero then the default behaviour will take effect, which is to
* advertise the server's trusted CAs.
*
* This function has no effect in clients, and in authentication
* methods other than certificate with X.509 certificates.
**/
void
gnutls_certificate_send_x509_rdn_sequence(gnutls_session_t session,
int status)
{
session->internals.ignore_rdn_sequence = status;
}
#ifdef ENABLE_OPENPGP
int _gnutls_openpgp_send_fingerprint(gnutls_session_t session)
{
return session->internals.pgp_fingerprint;
}
#endif
/*-
* _gnutls_record_set_default_version - Used to set the default version for the first record packet
* @session: is a #gnutls_session_t type.
* @major: is a tls major version
* @minor: is a tls minor version
*
* This function sets the default version that we will use in the first
* record packet (client hello). This function is only useful to people
* that know TLS internals and want to debug other implementations.
-*/
void
_gnutls_record_set_default_version(gnutls_session_t session,
unsigned char major,
unsigned char minor)
{
session->internals.default_record_version[0] = major;
session->internals.default_record_version[1] = minor;
}
/*-
* _gnutls_hello_set_default_version - Used to set the default version for the first record packet
* @session: is a #gnutls_session_t type.
* @major: is a tls major version
* @minor: is a tls minor version
*
* This function sets the default version that we will use in the first
* record packet (client hello). This function is only useful to people
* that know TLS internals and want to debug other implementations.
-*/
void
_gnutls_hello_set_default_version(gnutls_session_t session,
unsigned char major,
unsigned char minor)
{
session->internals.default_hello_version[0] = major;
session->internals.default_hello_version[1] = minor;
}
/**
* gnutls_handshake_set_private_extensions:
* @session: is a #gnutls_session_t type.
* @allow: is an integer (0 or 1)
*
* This function will enable or disable the use of private cipher
* suites (the ones that start with 0xFF). By default or if @allow
* is 0 then these cipher suites will not be advertised nor used.
*
* Currently GnuTLS does not include such cipher-suites or
* compression algorithms.
*
* Enabling the private ciphersuites when talking to other than
* gnutls servers and clients may cause interoperability problems.
**/
void
gnutls_handshake_set_private_extensions(gnutls_session_t session,
int allow)
{
session->internals.enable_private = allow;
}
inline static int
_gnutls_cal_PRF_A(const mac_entry_st * me,
const void *secret, int secret_size,
const void *seed, int seed_size, void *result)
{
int ret;
ret =
_gnutls_mac_fast(me->id, secret, secret_size, seed, seed_size,
result);
if (ret < 0)
return gnutls_assert_val(ret);
return 0;
}
#define MAX_SEED_SIZE 200
/* Produces "total_bytes" bytes using the hash algorithm specified.
* (used in the PRF function)
*/
static int
P_hash(gnutls_mac_algorithm_t algorithm,
const uint8_t * secret, int secret_size,
const uint8_t * seed, int seed_size, int total_bytes, uint8_t * ret)
{
mac_hd_st td2;
int i, times, how, blocksize, A_size;
uint8_t final[MAX_HASH_SIZE], Atmp[MAX_SEED_SIZE];
int output_bytes, result;
const mac_entry_st *me = mac_to_entry(algorithm);
blocksize = _gnutls_mac_get_algo_len(me);
if (seed_size > MAX_SEED_SIZE || total_bytes <= 0 || blocksize == 0) {
gnutls_assert();
return GNUTLS_E_INTERNAL_ERROR;
}
output_bytes = 0;
do {
output_bytes += blocksize;
}
while (output_bytes < total_bytes);
/* calculate A(0) */
memcpy(Atmp, seed, seed_size);
A_size = seed_size;
times = output_bytes / blocksize;
for (i = 0; i < times; i++) {
result = _gnutls_mac_init(&td2, me, secret, secret_size);
if (result < 0) {
gnutls_assert();
return result;
}
/* here we calculate A(i+1) */
if ((result =
_gnutls_cal_PRF_A(me, secret, secret_size, Atmp,
A_size, Atmp)) < 0) {
gnutls_assert();
_gnutls_mac_deinit(&td2, final);
return result;
}
A_size = blocksize;
_gnutls_mac(&td2, Atmp, A_size);
_gnutls_mac(&td2, seed, seed_size);
_gnutls_mac_deinit(&td2, final);
if ((1 + i) * blocksize < total_bytes) {
how = blocksize;
} else {
how = total_bytes - (i) * blocksize;
}
if (how > 0) {
memcpy(&ret[i * blocksize], final, how);
}
}
return 0;
}
#define MAX_PRF_BYTES 200
/* This function operates as _gnutls_PRF(), but does not require
* a pointer to the current session. It takes the @mac algorithm
* explicitly. For legacy TLS/SSL sessions before TLS 1.2 the MAC
* must be set to %GNUTLS_MAC_UNKNOWN.
*/
static int
_gnutls_PRF_raw(gnutls_mac_algorithm_t mac,
const uint8_t * secret, unsigned int secret_size,
const char *label, int label_size, const uint8_t * seed,
int seed_size, int total_bytes, void *ret)
{
int l_s, s_seed_size;
const uint8_t *s1, *s2;
uint8_t s_seed[MAX_SEED_SIZE];
uint8_t o1[MAX_PRF_BYTES], o2[MAX_PRF_BYTES];
int result;
if (total_bytes > MAX_PRF_BYTES) {
gnutls_assert();
return GNUTLS_E_INTERNAL_ERROR;
}
/* label+seed = s_seed */
s_seed_size = seed_size + label_size;
if (s_seed_size > MAX_SEED_SIZE) {
gnutls_assert();
return GNUTLS_E_INTERNAL_ERROR;
}
memcpy(s_seed, label, label_size);
memcpy(&s_seed[label_size], seed, seed_size);
if (mac != GNUTLS_MAC_UNKNOWN) {
result =
P_hash(mac, secret, secret_size,
s_seed, s_seed_size,
total_bytes, ret);
if (result < 0) {
gnutls_assert();
return result;
}
} else {
l_s = secret_size / 2;
s1 = &secret[0];
s2 = &secret[l_s];
if (secret_size % 2 != 0) {
l_s++;
}
result =
P_hash(GNUTLS_MAC_MD5, s1, l_s, s_seed, s_seed_size,
total_bytes, o1);
if (result < 0) {
gnutls_assert();
return result;
}
result =
P_hash(GNUTLS_MAC_SHA1, s2, l_s, s_seed, s_seed_size,
total_bytes, o2);
if (result < 0) {
gnutls_assert();
return result;
}
memxor(o1, o2, total_bytes);
memcpy(ret, o1, total_bytes);
}
return 0; /* ok */
}
/* The PRF function expands a given secret
* needed by the TLS specification. ret must have a least total_bytes
* available.
*/
int
_gnutls_PRF(gnutls_session_t session,
const uint8_t * secret, unsigned int secret_size,
const char *label, int label_size, const uint8_t * seed,
int seed_size, int total_bytes, void *ret)
{
const version_entry_st *ver = get_version(session);
if (_gnutls_version_has_selectable_prf(ver)) {
return _gnutls_PRF_raw(
_gnutls_cipher_suite_get_prf(session->security_parameters.cipher_suite),
secret, secret_size,
label, label_size,
seed, seed_size,
total_bytes,
ret);
} else {
return _gnutls_PRF_raw(
GNUTLS_MAC_UNKNOWN,
secret, secret_size,
label, label_size,
seed, seed_size,
total_bytes,
ret);
}
}
#ifdef ENABLE_FIPS140
int
_gnutls_prf_raw(gnutls_mac_algorithm_t mac,
size_t master_size, const void *master,
size_t label_size, const char *label,
size_t seed_size, const char *seed, size_t outsize,
char *out);
/*-
* _gnutls_prf_raw:
* @mac: the MAC algorithm to use, set to %GNUTLS_MAC_UNKNOWN for the TLS1.0 mac
* @master_size: length of the @master variable.
* @master: the master secret used in PRF computation
* @label_size: length of the @label variable.
* @label: label used in PRF computation, typically a short string.
* @seed_size: length of the @seed variable.
* @seed: optional extra data to seed the PRF with.
* @outsize: size of pre-allocated output buffer to hold the output.
* @out: pre-allocated buffer to hold the generated data.
*
* Apply the TLS Pseudo-Random-Function (PRF) on the master secret
* and the provided data.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
-*/
int
_gnutls_prf_raw(gnutls_mac_algorithm_t mac,
size_t master_size, const void *master,
size_t label_size, const char *label,
size_t seed_size, const char *seed, size_t outsize,
char *out)
{
return _gnutls_PRF_raw(mac,
master, master_size,
label, label_size,
(uint8_t *) seed, seed_size,
outsize, out);
}
#endif
/**
* gnutls_prf_raw:
* @session: is a #gnutls_session_t type.
* @label_size: length of the @label variable.
* @label: label used in PRF computation, typically a short string.
* @seed_size: length of the @seed variable.
* @seed: optional extra data to seed the PRF with.
* @outsize: size of pre-allocated output buffer to hold the output.
* @out: pre-allocated buffer to hold the generated data.
*
* Apply the TLS Pseudo-Random-Function (PRF) on the master secret
* and the provided data.
*
* The @label variable usually contains a string denoting the purpose
* for the generated data. The @seed usually contains data such as the
* client and server random, perhaps together with some additional
* data that is added to guarantee uniqueness of the output for a
* particular purpose.
*
* Because the output is not guaranteed to be unique for a particular
* session unless @seed includes the client random and server random
* fields (the PRF would output the same data on another connection
* resumed from the first one), it is not recommended to use this
* function directly. The gnutls_prf() function seeds the PRF with the
* client and server random fields directly, and is recommended if you
* want to generate pseudo random data unique for each session.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
**/
int
gnutls_prf_raw(gnutls_session_t session,
size_t label_size,
const char *label,
size_t seed_size, const char *seed, size_t outsize,
char *out)
{
int ret;
ret = _gnutls_PRF(session,
session->security_parameters.master_secret,
GNUTLS_MASTER_SIZE,
label,
label_size, (uint8_t *) seed, seed_size, outsize,
out);
return ret;
}
/**
* gnutls_prf_rfc5705:
* @session: is a #gnutls_session_t type.
* @label_size: length of the @label variable.
* @label: label used in PRF computation, typically a short string.
* @context_size: length of the @extra variable.
* @context: optional extra data to seed the PRF with.
* @outsize: size of pre-allocated output buffer to hold the output.
* @out: pre-allocated buffer to hold the generated data.
*
* Applies the TLS Pseudo-Random-Function (PRF) on the master secret
* and the provided data, seeded with the client and server random fields,
* as specified in RFC5705.
*
* The @label variable usually contains a string denoting the purpose
* for the generated data. The @server_random_first indicates whether
* the client random field or the server random field should be first
* in the seed. Non-zero indicates that the server random field is first,
* 0 that the client random field is first.
*
* The @context variable can be used to add more data to the seed, after
* the random variables. It can be used to make sure the
* generated output is strongly connected to some additional data
* (e.g., a string used in user authentication).
*
* The output is placed in @out, which must be pre-allocated.
*
* Note that, to provide the RFC5705 context, the @contect variable
* must be non-null.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
*
* Since: 3.4.4
**/
int
gnutls_prf_rfc5705(gnutls_session_t session,
size_t label_size, const char *label,
size_t context_size, const char *context,
size_t outsize, char *out)
{
char *pctx = NULL;
int ret;
if (context != NULL && context_size > 65535) {
gnutls_assert();
return GNUTLS_E_INVALID_REQUEST;
}
if (context != NULL) {
pctx = gnutls_malloc(context_size+2);
if (!pctx) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
memcpy(pctx+2, context, context_size);
_gnutls_write_uint16(context_size, (void*)pctx);
context_size += 2;
}
ret = gnutls_prf(session, label_size, label, 0,
context_size, pctx, outsize, out);
gnutls_free(pctx);
return ret;
}
/**
* gnutls_prf:
* @session: is a #gnutls_session_t type.
* @label_size: length of the @label variable.
* @label: label used in PRF computation, typically a short string.
* @server_random_first: non-zero if server random field should be first in seed
* @extra_size: length of the @extra variable.
* @extra: optional extra data to seed the PRF with.
* @outsize: size of pre-allocated output buffer to hold the output.
* @out: pre-allocated buffer to hold the generated data.
*
* Applies the TLS Pseudo-Random-Function (PRF) on the master secret
* and the provided data, seeded with the client and server random fields.
* For the key expansion specified in RFC5705 see gnutls_prf_rfc5705().
*
* The @label variable usually contains a string denoting the purpose
* for the generated data. The @server_random_first indicates whether
* the client random field or the server random field should be first
* in the seed. Non-zero indicates that the server random field is first,
* 0 that the client random field is first.
*
* The @extra variable can be used to add more data to the seed, after
* the random variables. It can be used to make sure the
* generated output is strongly connected to some additional data
* (e.g., a string used in user authentication).
*
* The output is placed in @out, which must be pre-allocated.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
**/
int
gnutls_prf(gnutls_session_t session,
size_t label_size,
const char *label,
int server_random_first,
size_t extra_size, const char *extra,
size_t outsize, char *out)
{
int ret;
uint8_t *seed;
size_t seedsize = 2 * GNUTLS_RANDOM_SIZE + extra_size;
seed = gnutls_malloc(seedsize);
if (!seed) {
gnutls_assert();
return GNUTLS_E_MEMORY_ERROR;
}
memcpy(seed, server_random_first ?
session->security_parameters.server_random :
session->security_parameters.client_random,
GNUTLS_RANDOM_SIZE);
memcpy(seed + GNUTLS_RANDOM_SIZE,
server_random_first ? session->security_parameters.
client_random : session->security_parameters.server_random,
GNUTLS_RANDOM_SIZE);
if (extra && extra_size) {
memcpy(seed + 2 * GNUTLS_RANDOM_SIZE, extra, extra_size);
}
ret =
_gnutls_PRF(session,
session->security_parameters.master_secret,
GNUTLS_MASTER_SIZE, label, label_size, seed,
seedsize, outsize, out);
gnutls_free(seed);
return ret;
}
/**
* gnutls_session_is_resumed:
* @session: is a #gnutls_session_t type.
*
* Check whether session is resumed or not.
*
* Returns: non zero if this session is resumed, or a zero if this is
* a new session.
**/
int gnutls_session_is_resumed(gnutls_session_t session)
{
if (session->security_parameters.entity == GNUTLS_CLIENT) {
if (session->security_parameters.session_id_size > 0 &&
session->security_parameters.session_id_size ==
session->internals.resumed_security_parameters.
session_id_size
&& memcmp(session->security_parameters.session_id,
session->
internals.resumed_security_parameters.
session_id,
session->security_parameters.
session_id_size) == 0)
return 1;
} else {
if (session->internals.resumed != RESUME_FALSE)
return 1;
}
return 0;
}
/**
* gnutls_session_resumption_requested:
* @session: is a #gnutls_session_t type.
*
* Check whether the client has asked for session resumption.
* This function is valid only on server side.
*
* Returns: non zero if session resumption was asked, or a zero if not.
**/
int gnutls_session_resumption_requested(gnutls_session_t session)
{
if (session->security_parameters.entity == GNUTLS_CLIENT) {
return 0;
} else {
return session->internals.resumption_requested;
}
}
/*-
* _gnutls_session_is_psk - Used to check whether this session uses PSK kx
* @session: is a #gnutls_session_t type.
*
* This function will return non zero if this session uses a PSK key
* exchange algorithm.
-*/
int _gnutls_session_is_psk(gnutls_session_t session)
{
gnutls_kx_algorithm_t kx;
kx = _gnutls_cipher_suite_get_kx_algo(session->security_parameters.
cipher_suite);
if (kx == GNUTLS_KX_PSK || kx == GNUTLS_KX_DHE_PSK
|| kx == GNUTLS_KX_RSA_PSK)
return 1;
return 0;
}
/*-
* _gnutls_session_is_ecc - Used to check whether this session uses ECC kx
* @session: is a #gnutls_session_t type.
*
* This function will return non zero if this session uses an elliptic
* curves key exchange exchange algorithm.
-*/
int _gnutls_session_is_ecc(gnutls_session_t session)
{
gnutls_kx_algorithm_t kx;
/* We get the key exchange algorithm through the ciphersuite because
* the negotiated key exchange might not have been set yet.
*/
kx = _gnutls_cipher_suite_get_kx_algo(session->security_parameters.
cipher_suite);
return _gnutls_kx_is_ecc(kx);
}
/**
* gnutls_session_get_ptr:
* @session: is a #gnutls_session_t type.
*
* Get user pointer for session. Useful in callbacks. This is the
* pointer set with gnutls_session_set_ptr().
*
* Returns: the user given pointer from the session structure, or
* %NULL if it was never set.
**/
void *gnutls_session_get_ptr(gnutls_session_t session)
{
return session->internals.user_ptr;
}
/**
* gnutls_session_set_ptr:
* @session: is a #gnutls_session_t type.
* @ptr: is the user pointer
*
* This function will set (associate) the user given pointer @ptr to
* the session structure. This pointer can be accessed with
* gnutls_session_get_ptr().
**/
void gnutls_session_set_ptr(gnutls_session_t session, void *ptr)
{
session->internals.user_ptr = ptr;
}
/**
* gnutls_session_set_verify_function:
* @session: is a #gnutls_session_t type.
* @func: is the callback function
*
* This function sets a callback to be called when peer's certificate
* has been received in order to verify it on receipt rather than
* doing after the handshake is completed. This overrides any callback
* set using gnutls_certificate_set_verify_function().
*
* The callback's function prototype is:
* int (*callback)(gnutls_session_t);
*
* If the callback function is provided then gnutls will call it, in the
* handshake, just after the certificate message has been received.
* To verify or obtain the certificate the gnutls_certificate_verify_peers2(),
* gnutls_certificate_type_get(), gnutls_certificate_get_peers() functions
* can be used.
*
* The callback function should return 0 for the handshake to continue
* or non-zero to terminate.
*
* Since: 3.4.6
**/
void
gnutls_session_set_verify_function
(gnutls_session_t session,
gnutls_certificate_verify_function * func)
{
session->internals.verify_callback = func;
}
/**
* gnutls_record_get_direction:
* @session: is a #gnutls_session_t type.
*
* This function provides information about the internals of the
* record protocol and is only useful if a prior gnutls function call
* (e.g. gnutls_handshake()) was interrupted for some reason, that
* is, if a function returned %GNUTLS_E_INTERRUPTED or
* %GNUTLS_E_AGAIN. In such a case, you might want to call select()
* or poll() before calling the interrupted gnutls function again. To
* tell you whether a file descriptor should be selected for either
* reading or writing, gnutls_record_get_direction() returns 0 if the
* interrupted function was trying to read data, and 1 if it was
* trying to write data.
*
* This function's output is unreliable if you are using the
* @session in different threads, for sending and receiving.
*
* Returns: 0 if trying to read data, 1 if trying to write data.
**/
int gnutls_record_get_direction(gnutls_session_t session)
{
return session->internals.direction;
}
/*-
* _gnutls_rsa_pms_set_version - Sets a version to be used at the RSA PMS
* @session: is a #gnutls_session_t type.
* @major: is the major version to use
* @minor: is the minor version to use
*
* This function will set the given version number to be used at the
* RSA PMS secret. This is only useful to clients, which want to
* test server's capabilities.
-*/
void
_gnutls_rsa_pms_set_version(gnutls_session_t session,
unsigned char major, unsigned char minor)
{
session->internals.rsa_pms_version[0] = major;
session->internals.rsa_pms_version[1] = minor;
}
/**
* gnutls_handshake_set_post_client_hello_function:
* @session: is a #gnutls_session_t type.
* @func: is the function to be called
*
* This function will set a callback to be called after the client
* hello has been received (callback valid in server side only). This
* allows the server to adjust settings based on received extensions.
*
* Those settings could be ciphersuites, requesting certificate, or
* anything else except for version negotiation (this is done before
* the hello message is parsed).
*
* This callback must return 0 on success or a gnutls error code to
* terminate the handshake.
*
* Since GnuTLS 3.3.5 the callback is
* allowed to return %GNUTLS_E_AGAIN or %GNUTLS_E_INTERRUPTED to
* put the handshake on hold. In that case gnutls_handshake()
* will return %GNUTLS_E_INTERRUPTED and can be resumed when needed.
*
* Warning: You should not use this function to terminate the
* handshake based on client input unless you know what you are
* doing. Before the handshake is finished there is no way to know if
* there is a man-in-the-middle attack being performed.
**/
void
gnutls_handshake_set_post_client_hello_function(gnutls_session_t session,
gnutls_handshake_post_client_hello_func
func)
{
session->internals.user_hello_func = func;
}
/**
* gnutls_session_enable_compatibility_mode:
* @session: is a #gnutls_session_t type.
*
* This function can be used to disable certain (security) features in
* TLS in order to maintain maximum compatibility with buggy
* clients. Because several trade-offs with security are enabled,
* if required they will be reported through the audit subsystem.
*
* Normally only servers that require maximum compatibility with
* everything out there, need to call this function.
*
* Note that this function must be called after any call to gnutls_priority
* functions.
**/
void gnutls_session_enable_compatibility_mode(gnutls_session_t session)
{
ENABLE_COMPAT(&session->internals.priorities);
}
/**
* gnutls_session_channel_binding:
* @session: is a #gnutls_session_t type.
* @cbtype: an #gnutls_channel_binding_t enumeration type
* @cb: output buffer array with data
*
* Extract given channel binding data of the @cbtype (e.g.,
* %GNUTLS_CB_TLS_UNIQUE) type.
*
* Returns: %GNUTLS_E_SUCCESS on success,
* %GNUTLS_E_UNIMPLEMENTED_FEATURE if the @cbtype is unsupported,
* %GNUTLS_E_CHANNEL_BINDING_NOT_AVAILABLE if the data is not
* currently available, or an error code.
*
* Since: 2.12.0
**/
int
gnutls_session_channel_binding(gnutls_session_t session,
gnutls_channel_binding_t cbtype,
gnutls_datum_t * cb)
{
if (cbtype != GNUTLS_CB_TLS_UNIQUE)
return GNUTLS_E_UNIMPLEMENTED_FEATURE;
if (!session->internals.initial_negotiation_completed)
return GNUTLS_E_CHANNEL_BINDING_NOT_AVAILABLE;
cb->size = session->internals.cb_tls_unique_len;
cb->data = gnutls_malloc(cb->size);
if (cb->data == NULL)
return GNUTLS_E_MEMORY_ERROR;
memcpy(cb->data, session->internals.cb_tls_unique, cb->size);
return 0;
}
/**
* gnutls_ecc_curve_get:
* @session: is a #gnutls_session_t type.
*
* Returns the currently used elliptic curve. Only valid
* when using an elliptic curve ciphersuite.
*
* Returns: the currently used curve, a #gnutls_ecc_curve_t
* type.
*
* Since: 3.0
**/
gnutls_ecc_curve_t gnutls_ecc_curve_get(gnutls_session_t session)
{
return _gnutls_session_ecc_curve_get(session);
}
/**
* gnutls_protocol_get_version:
* @session: is a #gnutls_session_t type.
*
* Get TLS version, a #gnutls_protocol_t value.
*
* Returns: The version of the currently used protocol.
**/
gnutls_protocol_t gnutls_protocol_get_version(gnutls_session_t session)
{
return get_num_version(session);
}
/**
* gnutls_session_get_random:
* @session: is a #gnutls_session_t type.
* @client: the client part of the random
* @server: the server part of the random
*
* This function returns pointers to the client and server
* random fields used in the TLS handshake. The pointers are
* not to be modified or deallocated.
*
* If a client random value has not yet been established, the output
* will be garbage.
*
* Since: 3.0
**/
void
gnutls_session_get_random(gnutls_session_t session,
gnutls_datum_t * client, gnutls_datum_t * server)
{
if (client) {
client->data = session->security_parameters.client_random;
client->size =
sizeof(session->security_parameters.client_random);
}
if (server) {
server->data = session->security_parameters.server_random;
server->size =
sizeof(session->security_parameters.server_random);
}
}
unsigned int timespec_sub_ms(struct timespec *a, struct timespec *b)
{
return (a->tv_sec * 1000 + a->tv_nsec / (1000 * 1000) -
(b->tv_sec * 1000 + b->tv_nsec / (1000 * 1000)));
}
/**
* gnutls_handshake_set_random:
* @session: is a #gnutls_session_t type.
* @random: a random value of 32-bytes
*
* This function will explicitly set the server or client hello
* random value in the subsequent TLS handshake. The random value
* should be a 32-byte value.
*
* Note that this function should not normally be used as gnutls
* will select automatically a random value for the handshake.
*
* This function should not be used when resuming a session.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
*
* Since 3.1.9
**/
int
gnutls_handshake_set_random(gnutls_session_t session,
const gnutls_datum_t * random)
{
if (random->size != GNUTLS_RANDOM_SIZE)
return GNUTLS_E_INVALID_REQUEST;
session->internals.sc_random_set = 1;
if (session->security_parameters.entity == GNUTLS_CLIENT)
memcpy(session->internals.resumed_security_parameters.
client_random, random->data, random->size);
else
memcpy(session->internals.resumed_security_parameters.
server_random, random->data, random->size);
return 0;
}
/**
* gnutls_handshake_set_hook_function:
* @session: is a #gnutls_session_t type
* @htype: the %gnutls_handshake_description_t of the message to hook at
* @post: %GNUTLS_HOOK_* depending on when the hook function should be called
* @func: is the function to be called
*
* This function will set a callback to be called after or before the specified
* handshake message has been received or generated. This is a
* generalization of gnutls_handshake_set_post_client_hello_function().
*
* To call the hook function prior to the message being sent/generated use
* %GNUTLS_HOOK_PRE as @post parameter, %GNUTLS_HOOK_POST to call
* after, and %GNUTLS_HOOK_BOTH for both cases.
*
* This callback must return 0 on success or a gnutls error code to
* terminate the handshake.
*
* Note to hook at all handshake messages use an @htype of %GNUTLS_HANDSHAKE_ANY.
*
* Warning: You should not use this function to terminate the
* handshake based on client input unless you know what you are
* doing. Before the handshake is finished there is no way to know if
* there is a man-in-the-middle attack being performed.
**/
void
gnutls_handshake_set_hook_function(gnutls_session_t session,
unsigned int htype,
int post,
gnutls_handshake_hook_func func)
{
session->internals.h_hook = func;
session->internals.h_type = htype;
session->internals.h_post = post;
}
/**
* gnutls_record_get_state:
* @session: is a #gnutls_session_t type
* @read: if non-zero the read parameters are returned, otherwise the write
* @mac_key: the key used for MAC (if a MAC is used)
* @IV: the initialization vector or nonce used
* @cipher_key: the cipher key
* @seq_number: A 64-bit sequence number
*
* This function will return the parameters of the current record state.
* These are only useful to be provided to an external off-loading device
* or subsystem.
*
* In that case, to sync the state you must call gnutls_record_set_state().
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
*
* Since 3.4.0
**/
int
gnutls_record_get_state(gnutls_session_t session,
unsigned read,
gnutls_datum_t *mac_key,
gnutls_datum_t *IV,
gnutls_datum_t *cipher_key,
unsigned char seq_number[8])
{
record_parameters_st *record_params;
record_state_st *record_state;
unsigned int epoch;
int ret;
if (read)
epoch = EPOCH_READ_CURRENT;
else
epoch = EPOCH_WRITE_CURRENT;
ret = _gnutls_epoch_get(session, epoch, &record_params);
if (ret < 0)
return gnutls_assert_val(ret);
if (!record_params->initialized)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
if (read)
record_state = &record_params->read;
else
record_state = &record_params->write;
memcpy(mac_key, &record_state->mac_secret, sizeof(gnutls_datum_t));
memcpy(IV, &record_state->IV, sizeof(gnutls_datum_t));
memcpy(cipher_key, &record_state->key, sizeof(gnutls_datum_t));
memcpy(seq_number, UINT64DATA(record_state->sequence_number), 8);
return 0;
}
/**
* gnutls_record_set_state:
* @session: is a #gnutls_session_t type
* @read: if non-zero the read parameters are returned, otherwise the write
* @seq_number: A 64-bit sequence number
*
* This function will set the sequence number in the current record state.
* This function is useful if sending and receiving are offloaded from
* gnutls. That is, if gnutls_record_get_state() was used.
*
* Returns: %GNUTLS_E_SUCCESS on success, or an error code.
*
* Since 3.4.0
**/
int
gnutls_record_set_state(gnutls_session_t session,
unsigned read,
unsigned char seq_number[8])
{
record_parameters_st *record_params;
record_state_st *record_state;
int epoch, ret;
if (read)
epoch = EPOCH_READ_CURRENT;
else
epoch = EPOCH_WRITE_CURRENT;
ret = _gnutls_epoch_get(session, epoch, &record_params);
if (ret < 0)
return gnutls_assert_val(ret);
if (!record_params->initialized)
return gnutls_assert_val(GNUTLS_E_INVALID_REQUEST);
if (read)
record_state = &record_params->read;
else
record_state = &record_params->write;
memcpy(UINT64DATA(record_state->sequence_number), seq_number, 8);
return 0;
}
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