olm/tests/test_ratchet.cpp

/* Copyright 2015 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/ratchet.hh"
#include "olm/cipher.h"
#include "unittest.hh"


int main() {

std::uint8_t root_info[] = "Olm";
std::uint8_t ratchet_info[] = "OlmRatchet";
std::uint8_t message_info[] = "OlmMessageKeys";

olm::KdfInfo kdf_info = {
    root_info, sizeof(root_info) - 1,
    ratchet_info, sizeof(ratchet_info) - 1
};

_olm_cipher_aes_sha_256 cipher0 = OLM_CIPHER_INIT_AES_SHA_256(message_info);
_olm_cipher *cipher = OLM_CIPHER_BASE(&cipher0);

std::uint8_t random_bytes[] = "0123456789ABDEF0123456789ABCDEF";
_olm_curve25519_key_pair alice_key;
_olm_crypto_curve25519_generate_key(random_bytes, &alice_key);

std::uint8_t shared_secret[] = "A secret";

{ /* Send/Receive test case */
TestCase test_case("Olm Send/Receive");

olm::Ratchet alice(kdf_info, cipher);
olm::Ratchet bob(kdf_info, cipher);

alice.initialise_as_alice(shared_secret, sizeof(shared_secret) - 1, alice_key);
bob.initialise_as_bob(shared_secret, sizeof(shared_secret) - 1, alice_key.public_key);

std::uint8_t plaintext[] = "Message";
std::size_t plaintext_length = sizeof(plaintext) - 1;

std::size_t message_length, random_length, output_length;
std::size_t encrypt_length, decrypt_length;
{
    /* Alice sends Bob a message */
    message_length = alice.encrypt_output_length(plaintext_length);
    random_length = alice.encrypt_random_length();
    assert_equals(std::size_t(0), random_length);

    std::uint8_t message[message_length];

    encrypt_length = alice.encrypt(
        plaintext, plaintext_length,
        NULL, 0,
        message, message_length
    );
    assert_equals(message_length, encrypt_length);

    output_length = bob.decrypt_max_plaintext_length(message, message_length);
    std::uint8_t output[output_length];
    decrypt_length = bob.decrypt(
        message, message_length,
        output, output_length
    );
    assert_equals(plaintext_length, decrypt_length);
    assert_equals(plaintext, output, decrypt_length);
}


{
    /* Bob sends Alice a message */
    message_length = bob.encrypt_output_length(plaintext_length);
    random_length = bob.encrypt_random_length();
    assert_equals(std::size_t(32), random_length);

    std::uint8_t message[message_length];
    std::uint8_t random[] = "This is a random 32 byte string.";

    encrypt_length = bob.encrypt(
        plaintext, plaintext_length,
        random, 32,
        message, message_length
    );
    assert_equals(message_length, encrypt_length);

    output_length = alice.decrypt_max_plaintext_length(message, message_length);
    std::uint8_t output[output_length];
    decrypt_length = alice.decrypt(
        message, message_length,
        output, output_length
    );
    assert_equals(plaintext_length, decrypt_length);
    assert_equals(plaintext, output, decrypt_length);
}

} /* Send/receive message test case */

{ /* Out of order test case */

TestCase test_case("Olm Out of Order");

olm::Ratchet alice(kdf_info, cipher);
olm::Ratchet bob(kdf_info, cipher);

alice.initialise_as_alice(shared_secret, sizeof(shared_secret) - 1, alice_key);
bob.initialise_as_bob(shared_secret, sizeof(shared_secret) - 1, alice_key.public_key);

std::uint8_t plaintext_1[] = "First Message";
std::size_t plaintext_1_length = sizeof(plaintext_1) - 1;

std::uint8_t plaintext_2[] = "Second Messsage. A bit longer than the first.";
std::size_t plaintext_2_length = sizeof(plaintext_2) - 1;

std::size_t message_1_length, message_2_length, random_length, output_length;
std::size_t encrypt_length, decrypt_length;

{
    /* Alice sends Bob two messages and they arrive out of order */
    message_1_length = alice.encrypt_output_length(plaintext_1_length);
    random_length = alice.encrypt_random_length();
    assert_equals(std::size_t(0), random_length);

    std::uint8_t message_1[message_1_length];
    std::uint8_t random[] = "This is a random 32 byte string.";
    encrypt_length = alice.encrypt(
        plaintext_1, plaintext_1_length,
        random, 32,
        message_1, message_1_length
    );
    assert_equals(message_1_length, encrypt_length);

    message_2_length = alice.encrypt_output_length(plaintext_2_length);
    random_length = alice.encrypt_random_length();
    assert_equals(std::size_t(0), random_length);

    std::uint8_t message_2[message_2_length];
    encrypt_length = alice.encrypt(
        plaintext_2, plaintext_2_length,
        NULL, 0,
        message_2, message_2_length
    );
    assert_equals(message_2_length, encrypt_length);

    output_length = bob.decrypt_max_plaintext_length(
        message_2, message_2_length
    );
    std::uint8_t output_1[output_length];
    decrypt_length = bob.decrypt(
        message_2, message_2_length,
        output_1, output_length
    );
    assert_equals(plaintext_2_length, decrypt_length);
    assert_equals(plaintext_2, output_1, decrypt_length);

    output_length = bob.decrypt_max_plaintext_length(
        message_1, message_1_length
    );
    std::uint8_t output_2[output_length];
    decrypt_length = bob.decrypt(
        message_1, message_1_length,
        output_2, output_length
    );

    assert_equals(plaintext_1_length, decrypt_length);
    assert_equals(plaintext_1, output_2, decrypt_length);
}

} /* Out of order test case */

{ /* More messages */

TestCase test_case("Olm More Messages");

olm::Ratchet alice(kdf_info, cipher);
olm::Ratchet bob(kdf_info, cipher);

alice.initialise_as_alice(shared_secret, sizeof(shared_secret) - 1, alice_key);
bob.initialise_as_bob(shared_secret, sizeof(shared_secret) - 1, alice_key.public_key);

std::uint8_t plaintext[] = "These 15 bytes";
assert_equals(std::size_t(15), sizeof(plaintext));
std::uint8_t random[] = "This is a random 32 byte string";

for (unsigned i = 0; i < 8; ++i) {
{
    std::uint8_t msg[alice.encrypt_output_length(sizeof(plaintext))];
    alice.encrypt(
        plaintext, 15, random, 32, msg, sizeof(msg)
    );
    std::uint8_t output[bob.decrypt_max_plaintext_length(msg, sizeof(msg))];
    assert_equals(
        std::size_t(15), bob.decrypt(msg, sizeof(msg), output, sizeof(output))
    );
}
random[31]++;
{
    std::uint8_t msg[bob.encrypt_output_length(sizeof(plaintext))];
    bob.encrypt(
        plaintext, 15, random, 32, msg, sizeof(msg)
    );
    std::uint8_t output[alice.decrypt_max_plaintext_length(msg, sizeof(msg))];
    assert_equals(
        std::size_t(15), alice.decrypt(msg, sizeof(msg), output, sizeof(output))
    );
}
random[31]++;
}

}

}
Copyright notices and a license 2015-02-26 17:56:25 +01:00			`/* Copyright 2015 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.`
			`*/`
Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`#include "olm/ratchet.hh"`
Convert cipher.hh to plain C 2016-05-16 17:25:09 +02:00			`#include "olm/cipher.h"`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`#include "unittest.hh"`


			`int main() {`

Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`std::uint8_t root_info[] = "Olm";`
			`std::uint8_t ratchet_info[] = "OlmRatchet";`
			`std::uint8_t message_info[] = "OlmMessageKeys";`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00
Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`olm::KdfInfo kdf_info = {`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`root_info, sizeof(root_info) - 1,`
Move AES specific details behind a cipher interface 2015-06-11 15:20:35 +02:00			`ratchet_info, sizeof(ratchet_info) - 1`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`};`

Rewrite _olm_cipher_aes_sha_256 initialisation Replace the init-static-var dance with some preprocessor macros 2016-05-24 13:06:47 +02:00			`_olm_cipher_aes_sha_256 cipher0 = OLM_CIPHER_INIT_AES_SHA_256(message_info);`
			`_olm_cipher *cipher = OLM_CIPHER_BASE(&cipher0);`
Move AES specific details behind a cipher interface 2015-06-11 15:20:35 +02:00
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`std::uint8_t random_bytes[] = "0123456789ABDEF0123456789ABCDEF";`
Convert Ed25519 and Curve25519 functions to plain C 2016-09-02 16:13:24 +02:00			`_olm_curve25519_key_pair alice_key;`
			`_olm_crypto_curve25519_generate_key(random_bytes, &alice_key);`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00
			`std::uint8_t shared_secret[] = "A secret";`

Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`{ /* Send/Receive test case */`
Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`TestCase test_case("Olm Send/Receive");`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00
Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`olm::Ratchet alice(kdf_info, cipher);`
			`olm::Ratchet bob(kdf_info, cipher);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`alice.initialise_as_alice(shared_secret, sizeof(shared_secret) - 1, alice_key);`
Convert Ed25519 and Curve25519 functions to plain C 2016-09-02 16:13:24 +02:00			`bob.initialise_as_bob(shared_secret, sizeof(shared_secret) - 1, alice_key.public_key);`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00
			`std::uint8_t plaintext[] = "Message";`
			`std::size_t plaintext_length = sizeof(plaintext) - 1;`

Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`std::size_t message_length, random_length, output_length;`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`std::size_t encrypt_length, decrypt_length;`
			`{`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`/* Alice sends Bob a message */`
			`message_length = alice.encrypt_output_length(plaintext_length);`
			`random_length = alice.encrypt_random_length();`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`assert_equals(std::size_t(0), random_length);`

Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`std::uint8_t message[message_length];`

Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`encrypt_length = alice.encrypt(`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`plaintext, plaintext_length,`
			`NULL, 0,`
			`message, message_length`
			`);`
			`assert_equals(message_length, encrypt_length);`

Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`output_length = bob.decrypt_max_plaintext_length(message, message_length);`
Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message 2015-06-12 10:08:15 +02:00			`std::uint8_t output[output_length];`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`decrypt_length = bob.decrypt(`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`message, message_length,`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`output, output_length`
			`);`
			`assert_equals(plaintext_length, decrypt_length);`
			`assert_equals(plaintext, output, decrypt_length);`
			`}`


			`{`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`/* Bob sends Alice a message */`
			`message_length = bob.encrypt_output_length(plaintext_length);`
			`random_length = bob.encrypt_random_length();`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`assert_equals(std::size_t(32), random_length);`

			`std::uint8_t message[message_length];`
			`std::uint8_t random[] = "This is a random 32 byte string.";`

Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`encrypt_length = bob.encrypt(`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`plaintext, plaintext_length,`
			`random, 32,`
			`message, message_length`
			`);`
			`assert_equals(message_length, encrypt_length);`

Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`output_length = alice.decrypt_max_plaintext_length(message, message_length);`
Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message 2015-06-12 10:08:15 +02:00			`std::uint8_t output[output_length];`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`decrypt_length = alice.decrypt(`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`message, message_length,`
			`output, output_length`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`);`
			`assert_equals(plaintext_length, decrypt_length);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`assert_equals(plaintext, output, decrypt_length);`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00			`}`

Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`} /* Send/receive message test case */`

			`{ /* Out of order test case */`

Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`TestCase test_case("Olm Out of Order");`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00
Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`olm::Ratchet alice(kdf_info, cipher);`
			`olm::Ratchet bob(kdf_info, cipher);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`alice.initialise_as_alice(shared_secret, sizeof(shared_secret) - 1, alice_key);`
Convert Ed25519 and Curve25519 functions to plain C 2016-09-02 16:13:24 +02:00			`bob.initialise_as_bob(shared_secret, sizeof(shared_secret) - 1, alice_key.public_key);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00
			`std::uint8_t plaintext_1[] = "First Message";`
			`std::size_t plaintext_1_length = sizeof(plaintext_1) - 1;`

			`std::uint8_t plaintext_2[] = "Second Messsage. A bit longer than the first.";`
			`std::size_t plaintext_2_length = sizeof(plaintext_2) - 1;`

			`std::size_t message_1_length, message_2_length, random_length, output_length;`
			`std::size_t encrypt_length, decrypt_length;`

			`{`
			`/* Alice sends Bob two messages and they arrive out of order */`
Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message 2015-06-12 10:08:15 +02:00			`message_1_length = alice.encrypt_output_length(plaintext_1_length);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`random_length = alice.encrypt_random_length();`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`assert_equals(std::size_t(0), random_length);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00
			`std::uint8_t message_1[message_1_length];`
			`std::uint8_t random[] = "This is a random 32 byte string.";`
			`encrypt_length = alice.encrypt(`
			`plaintext_1, plaintext_1_length,`
			`random, 32,`
			`message_1, message_1_length`
			`);`
			`assert_equals(message_1_length, encrypt_length);`

Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message 2015-06-12 10:08:15 +02:00			`message_2_length = alice.encrypt_output_length(plaintext_2_length);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`random_length = alice.encrypt_random_length();`
			`assert_equals(std::size_t(0), random_length);`

			`std::uint8_t message_2[message_2_length];`
			`encrypt_length = alice.encrypt(`
			`plaintext_2, plaintext_2_length,`
			`NULL, 0,`
			`message_2, message_2_length`
			`);`
			`assert_equals(message_2_length, encrypt_length);`

Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message 2015-06-12 10:08:15 +02:00			`output_length = bob.decrypt_max_plaintext_length(`
			`message_2, message_2_length`
			`);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`std::uint8_t output_1[output_length];`
			`decrypt_length = bob.decrypt(`
			`message_2, message_2_length,`
			`output_1, output_length`
			`);`
			`assert_equals(plaintext_2_length, decrypt_length);`
			`assert_equals(plaintext_2, output_1, decrypt_length);`

Pass the message body to decrypt_max_plaintext_length so we can get a more accurate estimate, rename encrypt_max_output_length to encrypt_output_length and change the api to return the exact number of bytes needed to hold the message 2015-06-12 10:08:15 +02:00			`output_length = bob.decrypt_max_plaintext_length(`
			`message_1, message_1_length`
			`);`
Test out of order delivery of messages 2015-02-27 12:36:58 +01:00			`std::uint8_t output_2[output_length];`
			`decrypt_length = bob.decrypt(`
			`message_1, message_1_length,`
			`output_2, output_length`
			`);`

			`assert_equals(plaintext_1_length, decrypt_length);`
			`assert_equals(plaintext_1, output_2, decrypt_length);`
			`}`

			`} /* Out of order test case */`

Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`{ /* More messages */`

Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`TestCase test_case("Olm More Messages");`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00
Rename axolotlpp as olm to avoid confusion with Axolotl-the-spec and Axolotl-the-OWS-libraries at moxie's request 2015-06-27 01:15:23 +02:00			`olm::Ratchet alice(kdf_info, cipher);`
			`olm::Ratchet bob(kdf_info, cipher);`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00
			`alice.initialise_as_alice(shared_secret, sizeof(shared_secret) - 1, alice_key);`
Convert Ed25519 and Curve25519 functions to plain C 2016-09-02 16:13:24 +02:00			`bob.initialise_as_bob(shared_secret, sizeof(shared_secret) - 1, alice_key.public_key);`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00
			`std::uint8_t plaintext[] = "These 15 bytes";`
			`assert_equals(std::size_t(15), sizeof(plaintext));`
			`std::uint8_t random[] = "This is a random 32 byte string";`

			`for (unsigned i = 0; i < 8; ++i) {`
			`{`
			`std::uint8_t msg[alice.encrypt_output_length(sizeof(plaintext))];`
Fix warnings and set -Werror 2016-05-18 19:03:28 +02:00			`alice.encrypt(`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`plaintext, 15, random, 32, msg, sizeof(msg)`
			`);`
			`std::uint8_t output[bob.decrypt_max_plaintext_length(msg, sizeof(msg))];`
			`assert_equals(`
			`std::size_t(15), bob.decrypt(msg, sizeof(msg), output, sizeof(output))`
			`);`
			`}`
			`random[31]++;`
			`{`
			`std::uint8_t msg[bob.encrypt_output_length(sizeof(plaintext))];`
Fix warnings and set -Werror 2016-05-18 19:03:28 +02:00			`bob.encrypt(`
Add some tests which advance the ratchet on both sides a few times 2015-06-26 15:42:24 +02:00			`plaintext, 15, random, 32, msg, sizeof(msg)`
			`);`
			`std::uint8_t output[alice.decrypt_max_plaintext_length(msg, sizeof(msg))];`
			`assert_equals(`
			`std::size_t(15), alice.decrypt(msg, sizeof(msg), output, sizeof(output))`
			`);`
			`}`
			`random[31]++;`
			`}`

			`}`
Add test for axolotl ratchet 2015-02-26 17:53:12 +01:00
			`}`