/* 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/inbound_group_session.h" #include "olm/outbound_group_session.h" #include "unittest.hh" #include "utils.hh" #include int main() { { TestCase test_case("Pickle outbound group session"); size_t size = olm_outbound_group_session_size(); std::vector memory(size); OlmOutboundGroupSession *session = olm_outbound_group_session(memory.data()); size_t pickle_length = olm_pickle_outbound_group_session_length(session); std::vector pickle1(pickle_length); size_t res = olm_pickle_outbound_group_session( session, "secret_key", 10, pickle1.data(), pickle_length ); assert_equals(pickle_length, res); std::vector pickle2(pickle1); std::vector buffer2(size); OlmOutboundGroupSession *session2 = olm_outbound_group_session(buffer2.data()); res = olm_unpickle_outbound_group_session( session2, "secret_key", 10, pickle2.data(), pickle_length ); assert_not_equals((size_t)-1, res); assert_equals(pickle_length, olm_pickle_outbound_group_session_length(session2)); res = olm_pickle_outbound_group_session( session2, "secret_key", 10, pickle2.data(), pickle_length ); assert_equals(pickle_length, res); assert_equals(pickle1.data(), pickle2.data(), pickle_length); /* Deliberately corrupt the pickled session by supplying a junk suffix and * ensure this is caught as an error. */ const size_t junk_length = 1; std::vector junk_pickle(pickle_length + junk_length); olm_pickle_outbound_group_session( session, "secret_key", 10, junk_pickle.data(), pickle_length ); const size_t junk_pickle_length = add_junk_suffix_to_pickle( "secret_key", 10, junk_pickle.data(), pickle_length, junk_length); assert_equals(std::size_t(-1), olm_unpickle_outbound_group_session( session, "secret_key", 10, junk_pickle.data(), junk_pickle_length )); assert_equals(OLM_PICKLE_EXTRA_DATA, olm_outbound_group_session_last_error_code(session)); } { TestCase test_case("Pickle inbound group session"); size_t size = olm_inbound_group_session_size(); std::vector memory(size); OlmInboundGroupSession *session = olm_inbound_group_session(memory.data()); size_t pickle_length = olm_pickle_inbound_group_session_length(session); std::vector pickle1(pickle_length); size_t res = olm_pickle_inbound_group_session( session, "secret_key", 10, pickle1.data(), pickle_length ); assert_equals(pickle_length, res); std::vector pickle2(pickle1); std::vector buffer2(size); OlmInboundGroupSession *session2 = olm_inbound_group_session(buffer2.data()); res = olm_unpickle_inbound_group_session( session2, "secret_key", 10, pickle2.data(), pickle_length ); assert_not_equals((size_t)-1, res); assert_equals(pickle_length, olm_pickle_inbound_group_session_length(session2)); res = olm_pickle_inbound_group_session( session2, "secret_key", 10, pickle2.data(), pickle_length ); assert_equals(pickle1.data(), pickle2.data(), pickle_length); /* Deliberately corrupt the pickled session by supplying a junk suffix and * ensure this is caught as an error. */ const size_t junk_length = 1; std::vector junk_pickle(pickle_length + junk_length); olm_pickle_inbound_group_session( session, "secret_key", 10, junk_pickle.data(), pickle_length ); const size_t junk_pickle_length = add_junk_suffix_to_pickle( "secret_key", 10, junk_pickle.data(), pickle_length, junk_length); assert_equals(std::size_t(-1), olm_unpickle_inbound_group_session( session, "secret_key", 10, junk_pickle.data(), junk_pickle_length )); assert_equals(OLM_PICKLE_EXTRA_DATA, olm_inbound_group_session_last_error_code(session)); } { TestCase test_case("Group message send/receive"); uint8_t random_bytes[] = "0123456789ABDEF0123456789ABCDEF" "0123456789ABDEF0123456789ABCDEF" "0123456789ABDEF0123456789ABCDEF" "0123456789ABDEF0123456789ABCDEF" "0123456789ABDEF0123456789ABCDEF" "0123456789ABDEF0123456789ABCDEF"; /* build the outbound session */ size_t size = olm_outbound_group_session_size(); std::vector memory(size); OlmOutboundGroupSession *session = olm_outbound_group_session(memory.data()); assert_equals((size_t)160, olm_init_outbound_group_session_random_length(session)); size_t res = olm_init_outbound_group_session( session, random_bytes, sizeof(random_bytes)); assert_equals((size_t)0, res); assert_equals(0U, olm_outbound_group_session_message_index(session)); size_t session_key_len = olm_outbound_group_session_key_length(session); std::vector session_key(session_key_len); olm_outbound_group_session_key(session, session_key.data(), session_key_len); /* encode the message */ uint8_t plaintext[] = "Message"; size_t plaintext_length = sizeof(plaintext) - 1; size_t msglen = olm_group_encrypt_message_length( session, plaintext_length); std::vector msg(msglen); res = olm_group_encrypt(session, plaintext, plaintext_length, msg.data(), msglen); assert_equals(msglen, res); assert_equals(1U, olm_outbound_group_session_message_index(session)); /* build the inbound session */ size = olm_inbound_group_session_size(); std::vector inbound_session_memory(size); OlmInboundGroupSession *inbound_session = olm_inbound_group_session(inbound_session_memory.data()); assert_equals(0, olm_inbound_group_session_is_verified(inbound_session)); res = olm_init_inbound_group_session( inbound_session, session_key.data(), session_key_len); assert_equals((size_t)0, res); assert_equals(1, olm_inbound_group_session_is_verified(inbound_session)); /* Check the session ids */ size_t out_session_id_len = olm_outbound_group_session_id_length(session); std::vector out_session_id(out_session_id_len); assert_equals(out_session_id_len, olm_outbound_group_session_id( session, out_session_id.data(), out_session_id_len )); size_t in_session_id_len = olm_inbound_group_session_id_length( inbound_session ); std::vector in_session_id(in_session_id_len); assert_equals(in_session_id_len, olm_inbound_group_session_id( inbound_session, in_session_id.data(), in_session_id_len )); assert_equals(in_session_id_len, out_session_id_len); assert_equals(out_session_id.data(), in_session_id.data(), in_session_id_len); /* decode the message */ /* olm_group_decrypt_max_plaintext_length destroys the input so we have to copy it. */ std::vector msgcopy(msg); size = olm_group_decrypt_max_plaintext_length(inbound_session, msgcopy.data(), msglen); std::vector plaintext_buf(size); uint32_t message_index; res = olm_group_decrypt(inbound_session, msg.data(), msglen, plaintext_buf.data(), size, &message_index); assert_equals(plaintext_length, res); assert_equals(plaintext, plaintext_buf.data(), res); assert_equals(message_index, uint32_t(0)); } { TestCase test_case("Inbound group session export/import"); uint8_t session_key[] = "AgAAAAAwMTIzNDU2Nzg5QUJERUYwMTIzNDU2Nzg5QUJDREVGMDEyMzQ1Njc4OUFCREVGM" "DEyMzQ1Njc4OUFCQ0RFRjAxMjM0NTY3ODlBQkRFRjAxMjM0NTY3ODlBQkNERUYwMTIzND" "U2Nzg5QUJERUYwMTIzNDU2Nzg5QUJDREVGMDEyMw0bdg1BDq4Px/slBow06q8n/B9WBfw" "WYyNOB8DlUmXGGwrFmaSb9bR/eY8xgERrxmP07hFmD9uqA2p8PMHdnV5ysmgufE6oLZ5+" "8/mWQOW3VVTnDIlnwd8oHUYRuk8TCQ"; const uint8_t message[] = "AwgAEhAcbh6UpbByoyZxufQ+h2B+8XHMjhR69G8F4+qjMaFlnIXusJZX3r8LnRORG9T3D" "XFdbVuvIWrLyRfm4i8QRbe8VPwGRFG57B1CtmxanuP8bHtnnYqlwPsD"; const std::size_t msglen = sizeof(message)-1; /* init first inbound group session, and decrypt */ std::size_t size = olm_inbound_group_session_size(); std::vector session_memory1(size); OlmInboundGroupSession *session1 = olm_inbound_group_session(session_memory1.data()); assert_equals(0, olm_inbound_group_session_is_verified(session1)); std::size_t res = olm_init_inbound_group_session( session1, session_key, sizeof(session_key)-1 ); assert_equals((size_t)0, res); assert_equals(1, olm_inbound_group_session_is_verified(session1)); /* olm_group_decrypt_max_plaintext_length destroys the input so we have to copy it. */ std::vector msgcopy(msglen); memcpy(msgcopy.data(), message, msglen); size = olm_group_decrypt_max_plaintext_length(session1, msgcopy.data(), msglen); std::vector plaintext_buf(size); uint32_t message_index; memcpy(msgcopy.data(), message, msglen); res = olm_group_decrypt( session1, msgcopy.data(), msglen, plaintext_buf.data(), size, &message_index ); assert_equals((std::size_t)7, res); assert_equals((const uint8_t *)"Message", plaintext_buf.data(), res); assert_equals(uint32_t(0), message_index); /* export the keys */ size = olm_export_inbound_group_session_length(session1); std::vector export_memory(size); res = olm_export_inbound_group_session( session1, export_memory.data(), size, 0 ); assert_equals(size, res); /* free the old session to check there is no shared data */ olm_clear_inbound_group_session(session1); /* import the keys into another inbound group session */ size = olm_inbound_group_session_size(); std::vector session_memory2(size); OlmInboundGroupSession *session2 = olm_inbound_group_session(session_memory2.data()); res = olm_import_inbound_group_session( session2, export_memory.data(), export_memory.size() ); assert_equals((size_t)0, res); assert_equals(0, olm_inbound_group_session_is_verified(session2)); /* decrypt the message with the new session */ memcpy(msgcopy.data(), message, msglen); size = olm_group_decrypt_max_plaintext_length(session2, msgcopy.data(), msglen); std::vector plaintext_buf2(size); memcpy(msgcopy.data(), message, msglen); res = olm_group_decrypt( session2, msgcopy.data(), msglen, plaintext_buf2.data(), size, &message_index ); assert_equals((std::size_t)7, res); assert_equals((const uint8_t *)"Message", plaintext_buf2.data(), res); assert_equals(uint32_t(0), message_index); assert_equals(1, olm_inbound_group_session_is_verified(session2)); } { TestCase test_case("Invalid signature group message"); uint8_t plaintext[] = "Message"; size_t plaintext_length = sizeof(plaintext) - 1; uint8_t session_key[] = "AgAAAAAwMTIzNDU2Nzg5QUJERUYwMTIzNDU2Nzg5QUJDREVGMDEyMzQ1Njc4OUFCREVGM" "DEyMzQ1Njc4OUFCQ0RFRjAxMjM0NTY3ODlBQkRFRjAxMjM0NTY3ODlBQkNERUYwMTIzND" "U2Nzg5QUJERUYwMTIzNDU2Nzg5QUJDREVGMDEyMztqJ7zOtqQtYqOo0CpvDXNlMhV3HeJ" "DpjrASKGLWdop4lx1cSN3Xv1TgfLPW8rhGiW+hHiMxd36nRuxscNv9k4oJA/KP+o0mi1w" "v44StrEJ1wwx9WZHBUIWkQbaBSuBDw"; uint8_t message[] = "AwgAEhAcbh6UpbByoyZxufQ+h2B+8XHMjhR69G8nP4pNZGl/3QMgrzCZPmP+F2aPLyKPz" "xRPBMUkeXRJ6Iqm5NeOdx2eERgTW7P20CM+lL3Xpk+ZUOOPvsSQNaAL"; size_t msglen = sizeof(message)-1; /* build the inbound session */ size_t size = olm_inbound_group_session_size(); std::vector inbound_session_memory(size); OlmInboundGroupSession *inbound_session = olm_inbound_group_session(inbound_session_memory.data()); size_t res = olm_init_inbound_group_session( inbound_session, session_key, sizeof(session_key)-1 ); assert_equals((size_t)0, res); /* decode the message */ /* olm_group_decrypt_max_plaintext_length destroys the input so we have to copy it. */ std::vector msgcopy(msglen); memcpy(msgcopy.data(), message, msglen); size = olm_group_decrypt_max_plaintext_length( inbound_session, msgcopy.data(), msglen ); memcpy(msgcopy.data(), message, msglen); std::vector plaintext_buf(size); uint32_t message_index; res = olm_group_decrypt( inbound_session, msgcopy.data(), msglen, plaintext_buf.data(), size, &message_index ); assert_equals(message_index, uint32_t(0)); assert_equals(plaintext_length, res); assert_equals(plaintext, plaintext_buf.data(), res); /* now twiddle the signature */ message[msglen-1] = 'E'; memcpy(msgcopy.data(), message, msglen); assert_equals( size, olm_group_decrypt_max_plaintext_length( inbound_session, msgcopy.data(), msglen ) ); memcpy(msgcopy.data(), message, msglen); res = olm_group_decrypt( inbound_session, msgcopy.data(), msglen, plaintext_buf.data(), size, &message_index ); assert_equals((size_t)-1, res); assert_equals( std::string("BAD_SIGNATURE"), std::string(olm_inbound_group_session_last_error(inbound_session)) ); } }