olm/src/outbound_group_session.c
Richard van der Hoff 21ce3491dd Clear random buf in olm_init_outbound_group_session
All the other methods clear their random inputs. This one needs to do the same,
to reduce the risk of the randomness being used elsewhere and leaking key info.
2016-10-21 17:19:59 +01:00

364 lines
10 KiB
C

/* Copyright 2016 OpenMarket Ltd
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License 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 "olm/outbound_group_session.h"
#include <string.h>
#include <sys/time.h>
#include "olm/base64.h"
#include "olm/cipher.h"
#include "olm/crypto.h"
#include "olm/error.h"
#include "olm/megolm.h"
#include "olm/memory.h"
#include "olm/message.h"
#include "olm/pickle.h"
#include "olm/pickle_encoding.h"
#define OLM_PROTOCOL_VERSION 3
#define GROUP_SESSION_ID_LENGTH ED25519_PUBLIC_KEY_LENGTH
#define PICKLE_VERSION 1
#define SESSION_KEY_VERSION 2
struct OlmOutboundGroupSession {
/** the Megolm ratchet providing the encryption keys */
Megolm ratchet;
/** The ed25519 keypair used for signing the messages */
struct _olm_ed25519_key_pair signing_key;
enum OlmErrorCode last_error;
};
size_t olm_outbound_group_session_size() {
return sizeof(OlmOutboundGroupSession);
}
OlmOutboundGroupSession * olm_outbound_group_session(
void *memory
) {
OlmOutboundGroupSession *session = memory;
olm_clear_outbound_group_session(session);
return session;
}
const char *olm_outbound_group_session_last_error(
const OlmOutboundGroupSession *session
) {
return _olm_error_to_string(session->last_error);
}
size_t olm_clear_outbound_group_session(
OlmOutboundGroupSession *session
) {
_olm_unset(session, sizeof(OlmOutboundGroupSession));
return sizeof(OlmOutboundGroupSession);
}
static size_t raw_pickle_length(
const OlmOutboundGroupSession *session
) {
size_t length = 0;
length += _olm_pickle_uint32_length(PICKLE_VERSION);
length += megolm_pickle_length(&(session->ratchet));
length += _olm_pickle_ed25519_key_pair_length(&(session->signing_key));
return length;
}
size_t olm_pickle_outbound_group_session_length(
const OlmOutboundGroupSession *session
) {
return _olm_enc_output_length(raw_pickle_length(session));
}
size_t olm_pickle_outbound_group_session(
OlmOutboundGroupSession *session,
void const * key, size_t key_length,
void * pickled, size_t pickled_length
) {
size_t raw_length = raw_pickle_length(session);
uint8_t *pos;
if (pickled_length < _olm_enc_output_length(raw_length)) {
session->last_error = OLM_OUTPUT_BUFFER_TOO_SMALL;
return (size_t)-1;
}
pos = _olm_enc_output_pos(pickled, raw_length);
pos = _olm_pickle_uint32(pos, PICKLE_VERSION);
pos = megolm_pickle(&(session->ratchet), pos);
pos = _olm_pickle_ed25519_key_pair(pos, &(session->signing_key));
return _olm_enc_output(key, key_length, pickled, raw_length);
}
size_t olm_unpickle_outbound_group_session(
OlmOutboundGroupSession *session,
void const * key, size_t key_length,
void * pickled, size_t pickled_length
) {
const uint8_t *pos;
const uint8_t *end;
uint32_t pickle_version;
size_t raw_length = _olm_enc_input(
key, key_length, pickled, pickled_length, &(session->last_error)
);
if (raw_length == (size_t)-1) {
return raw_length;
}
pos = pickled;
end = pos + raw_length;
pos = _olm_unpickle_uint32(pos, end, &pickle_version);
if (pickle_version != PICKLE_VERSION) {
session->last_error = OLM_UNKNOWN_PICKLE_VERSION;
return (size_t)-1;
}
pos = megolm_unpickle(&(session->ratchet), pos, end);
pos = _olm_unpickle_ed25519_key_pair(pos, end, &(session->signing_key));
if (end != pos) {
/* We had the wrong number of bytes in the input. */
session->last_error = OLM_CORRUPTED_PICKLE;
return (size_t)-1;
}
return pickled_length;
}
size_t olm_init_outbound_group_session_random_length(
const OlmOutboundGroupSession *session
) {
/* we need data to initialize the megolm ratchet, plus some more for the
* session id.
*/
return MEGOLM_RATCHET_LENGTH +
ED25519_RANDOM_LENGTH;
}
size_t olm_init_outbound_group_session(
OlmOutboundGroupSession *session,
uint8_t *random, size_t random_length
) {
const uint8_t *random_ptr = random;
if (random_length < olm_init_outbound_group_session_random_length(session)) {
/* Insufficient random data for new session */
session->last_error = OLM_NOT_ENOUGH_RANDOM;
return (size_t)-1;
}
megolm_init(&(session->ratchet), random_ptr, 0);
random_ptr += MEGOLM_RATCHET_LENGTH;
_olm_crypto_ed25519_generate_key(random_ptr, &(session->signing_key));
random_ptr += ED25519_RANDOM_LENGTH;
_olm_unset(random, random_length);
return 0;
}
static size_t raw_message_length(
OlmOutboundGroupSession *session,
size_t plaintext_length)
{
size_t ciphertext_length, mac_length;
ciphertext_length = megolm_cipher->ops->encrypt_ciphertext_length(
megolm_cipher, plaintext_length
);
mac_length = megolm_cipher->ops->mac_length(megolm_cipher);
return _olm_encode_group_message_length(
session->ratchet.counter,
ciphertext_length, mac_length, ED25519_SIGNATURE_LENGTH
);
}
size_t olm_group_encrypt_message_length(
OlmOutboundGroupSession *session,
size_t plaintext_length
) {
size_t message_length = raw_message_length(session, plaintext_length);
return _olm_encode_base64_length(message_length);
}
/** write an un-base64-ed message to the buffer */
static size_t _encrypt(
OlmOutboundGroupSession *session, uint8_t const * plaintext, size_t plaintext_length,
uint8_t * buffer
) {
size_t ciphertext_length, mac_length, message_length;
size_t result;
uint8_t *ciphertext_ptr;
ciphertext_length = megolm_cipher->ops->encrypt_ciphertext_length(
megolm_cipher,
plaintext_length
);
mac_length = megolm_cipher->ops->mac_length(megolm_cipher);
/* first we build the message structure, then we encrypt
* the plaintext into it.
*/
message_length = _olm_encode_group_message(
OLM_PROTOCOL_VERSION,
session->ratchet.counter,
ciphertext_length,
buffer,
&ciphertext_ptr);
message_length += mac_length;
result = megolm_cipher->ops->encrypt(
megolm_cipher,
megolm_get_data(&(session->ratchet)), MEGOLM_RATCHET_LENGTH,
plaintext, plaintext_length,
ciphertext_ptr, ciphertext_length,
buffer, message_length
);
if (result == (size_t)-1) {
return result;
}
megolm_advance(&(session->ratchet));
/* sign the whole thing with the ed25519 key. */
_olm_crypto_ed25519_sign(
&(session->signing_key),
buffer, message_length,
buffer + message_length
);
return result;
}
size_t olm_group_encrypt(
OlmOutboundGroupSession *session,
uint8_t const * plaintext, size_t plaintext_length,
uint8_t * message, size_t max_message_length
) {
size_t rawmsglen;
size_t result;
uint8_t *message_pos;
rawmsglen = raw_message_length(session, plaintext_length);
if (max_message_length < _olm_encode_base64_length(rawmsglen)) {
session->last_error = OLM_OUTPUT_BUFFER_TOO_SMALL;
return (size_t)-1;
}
/* we construct the message at the end of the buffer, so that
* we have room to base64-encode it once we're done.
*/
message_pos = message + _olm_encode_base64_length(rawmsglen) - rawmsglen;
/* write the message, and encrypt it, at message_pos */
result = _encrypt(session, plaintext, plaintext_length, message_pos);
if (result == (size_t)-1) {
return result;
}
/* bas64-encode it */
return _olm_encode_base64(
message_pos, rawmsglen, message
);
}
size_t olm_outbound_group_session_id_length(
const OlmOutboundGroupSession *session
) {
return _olm_encode_base64_length(GROUP_SESSION_ID_LENGTH);
}
size_t olm_outbound_group_session_id(
OlmOutboundGroupSession *session,
uint8_t * id, size_t id_length
) {
if (id_length < olm_outbound_group_session_id_length(session)) {
session->last_error = OLM_OUTPUT_BUFFER_TOO_SMALL;
return (size_t)-1;
}
return _olm_encode_base64(
session->signing_key.public_key.public_key, GROUP_SESSION_ID_LENGTH, id
);
}
uint32_t olm_outbound_group_session_message_index(
OlmOutboundGroupSession *session
) {
return session->ratchet.counter;
}
#define SESSION_KEY_RAW_LENGTH \
(1 + 4 + MEGOLM_RATCHET_LENGTH + ED25519_PUBLIC_KEY_LENGTH\
+ ED25519_SIGNATURE_LENGTH)
size_t olm_outbound_group_session_key_length(
const OlmOutboundGroupSession *session
) {
return _olm_encode_base64_length(SESSION_KEY_RAW_LENGTH);
}
size_t olm_outbound_group_session_key(
OlmOutboundGroupSession *session,
uint8_t * key, size_t key_length
) {
uint8_t *raw;
uint8_t *ptr;
size_t encoded_length = olm_outbound_group_session_key_length(session);
if (key_length < encoded_length) {
session->last_error = OLM_OUTPUT_BUFFER_TOO_SMALL;
return (size_t)-1;
}
/* put the raw data at the end of the output buffer. */
raw = ptr = key + encoded_length - SESSION_KEY_RAW_LENGTH;
*ptr++ = SESSION_KEY_VERSION;
uint32_t counter = session->ratchet.counter;
// Encode counter as a big endian 32-bit number.
for (unsigned i = 0; i < 4; i++) {
*ptr++ = 0xFF & (counter >> 24); counter <<= 8;
}
memcpy(ptr, megolm_get_data(&session->ratchet), MEGOLM_RATCHET_LENGTH);
ptr += MEGOLM_RATCHET_LENGTH;
memcpy(
ptr, session->signing_key.public_key.public_key,
ED25519_PUBLIC_KEY_LENGTH
);
ptr += ED25519_PUBLIC_KEY_LENGTH;
/* sign the whole thing with the ed25519 key. */
_olm_crypto_ed25519_sign(
&(session->signing_key),
raw, ptr - raw, ptr
);
return _olm_encode_base64(raw, SESSION_KEY_RAW_LENGTH, key);
}