olm/tests/test_olm.cpp

405 lines
14 KiB
C++

#include "olm/olm.h"
#include "unittest.hh"
#include <cstddef>
#include <cstdint>
#include <cstring>
struct MockRandom {
MockRandom(std::uint8_t tag, std::uint8_t offset = 0)
: tag(tag), current(offset) {}
void operator()(
std::uint8_t * bytes, std::size_t length
) {
while (length > 32) {
bytes[0] = tag;
std::memset(bytes + 1, current, 31);
length -= 32;
bytes += 32;
current += 1;
}
if (length) {
bytes[0] = tag;
std::memset(bytes + 1, current, length - 1);
current += 1;
}
}
std::uint8_t tag;
std::uint8_t current;
};
int main() {
{ /** Pickle account test */
TestCase test_case("Pickle account test");
MockRandom mock_random('P');
std::uint8_t account_buffer[::olm_account_size()];
::OlmAccount *account = ::olm_account(account_buffer);
std::uint8_t random[::olm_create_account_random_length(account)];
mock_random(random, sizeof(random));
::olm_create_account(account, random, sizeof(random));
std::uint8_t ot_random[::olm_account_generate_one_time_keys_random_length(
account, 42
)];
mock_random(ot_random, sizeof(ot_random));
::olm_account_generate_one_time_keys(account, 42, ot_random, sizeof(ot_random));
std::size_t pickle_length = ::olm_pickle_account_length(account);
std::uint8_t pickle1[pickle_length];
std::size_t res = ::olm_pickle_account(account, "secret_key", 10, pickle1, pickle_length);
assert_equals(pickle_length, res);
std::uint8_t pickle2[pickle_length];
std::memcpy(pickle2, pickle1, pickle_length);
std::uint8_t account_buffer2[::olm_account_size()];
::OlmAccount *account2 = ::olm_account(account_buffer2);
assert_not_equals(std::size_t(-1), ::olm_unpickle_account(
account2, "secret_key", 10, pickle2, pickle_length
));
assert_equals(pickle_length, ::olm_pickle_account_length(account2));
res = ::olm_pickle_account(account2, "secret_key", 10, pickle2, pickle_length);
assert_equals(pickle_length, res);
assert_equals(pickle1, pickle2, pickle_length);
}
{
TestCase test_case("Old account unpickle test");
// this uses the old pickle format, which did not use enough space
// for the Ed25519 key. We should reject it.
std::uint8_t pickle[] =
"x3h9er86ygvq56pM1yesdAxZou4ResPQC9Rszk/fhEL9JY/umtZ2N/foL/SUgVXS"
"v0IxHHZTafYjDdzJU9xr8dQeBoOTGfV9E/lCqDGBnIlu7SZndqjEKXtzGyQr4sP4"
"K/A/8TOu9iK2hDFszy6xETiousHnHgh2ZGbRUh4pQx+YMm8ZdNZeRnwFGLnrWyf9"
"O5TmXua1FcU";
std::uint8_t account_buffer[::olm_account_size()];
::OlmAccount *account = ::olm_account(account_buffer);
assert_equals(
std::size_t(-1),
::olm_unpickle_account(
account, "", 0, pickle, sizeof(pickle)-1
)
);
assert_equals(
std::string("BAD_LEGACY_ACCOUNT_PICKLE"),
std::string(::olm_account_last_error(account))
);
}
{ /** Pickle session test */
TestCase test_case("Pickle session test");
MockRandom mock_random('P');
std::uint8_t account_buffer[::olm_account_size()];
::OlmAccount *account = ::olm_account(account_buffer);
std::uint8_t random[::olm_create_account_random_length(account)];
mock_random(random, sizeof(random));
::olm_create_account(account, random, sizeof(random));
std::uint8_t session_buffer[::olm_session_size()];
::OlmSession *session = ::olm_session(session_buffer);
std::uint8_t identity_key[32];
std::uint8_t one_time_key[32];
mock_random(identity_key, sizeof(identity_key));
mock_random(one_time_key, sizeof(one_time_key));
std::uint8_t random2[::olm_create_outbound_session_random_length(session)];
mock_random(random2, sizeof(random2));
::olm_create_outbound_session(
session, account,
identity_key, sizeof(identity_key),
one_time_key, sizeof(one_time_key),
random2, sizeof(random2)
);
std::size_t pickle_length = ::olm_pickle_session_length(session);
std::uint8_t pickle1[pickle_length];
std::size_t res = ::olm_pickle_session(session, "secret_key", 10, pickle1, pickle_length);
assert_equals(pickle_length, res);
std::uint8_t pickle2[pickle_length];
std::memcpy(pickle2, pickle1, pickle_length);
std::uint8_t session_buffer2[::olm_session_size()];
::OlmSession *session2 = ::olm_session(session_buffer2);
assert_not_equals(std::size_t(-1), ::olm_unpickle_session(
session2, "secret_key", 10, pickle2, pickle_length
));
assert_equals(pickle_length, ::olm_pickle_session_length(session2));
res = ::olm_pickle_session(session2, "secret_key", 10, pickle2, pickle_length);
assert_equals(pickle_length, res);
assert_equals(pickle1, pickle2, pickle_length);
}
{ /** Loopback test */
TestCase test_case("Loopback test");
MockRandom mock_random_a('A', 0x00);
MockRandom mock_random_b('B', 0x80);
std::uint8_t a_account_buffer[::olm_account_size()];
::OlmAccount *a_account = ::olm_account(a_account_buffer);
std::uint8_t a_random[::olm_create_account_random_length(a_account)];
mock_random_a(a_random, sizeof(a_random));
::olm_create_account(a_account, a_random, sizeof(a_random));
std::uint8_t b_account_buffer[::olm_account_size()];
::OlmAccount *b_account = ::olm_account(b_account_buffer);
std::uint8_t b_random[::olm_create_account_random_length(b_account)];
mock_random_b(b_random, sizeof(b_random));
::olm_create_account(b_account, b_random, sizeof(b_random));
std::uint8_t o_random[::olm_account_generate_one_time_keys_random_length(
b_account, 42
)];
mock_random_b(o_random, sizeof(o_random));
::olm_account_generate_one_time_keys(b_account, 42, o_random, sizeof(o_random));
std::uint8_t a_id_keys[::olm_account_identity_keys_length(a_account)];
::olm_account_identity_keys(a_account, a_id_keys, sizeof(a_id_keys));
std::uint8_t b_id_keys[::olm_account_identity_keys_length(b_account)];
std::uint8_t b_ot_keys[::olm_account_one_time_keys_length(b_account)];
::olm_account_identity_keys(b_account, b_id_keys, sizeof(b_id_keys));
::olm_account_one_time_keys(b_account, b_ot_keys, sizeof(b_ot_keys));
std::uint8_t a_session_buffer[::olm_session_size()];
::OlmSession *a_session = ::olm_session(a_session_buffer);
std::uint8_t a_rand[::olm_create_outbound_session_random_length(a_session)];
mock_random_a(a_rand, sizeof(a_rand));
assert_not_equals(std::size_t(-1), ::olm_create_outbound_session(
a_session, a_account,
b_id_keys + 15, 43, // B's curve25519 identity key
b_ot_keys + 25, 43, // B's curve25519 one time key
a_rand, sizeof(a_rand)
));
std::uint8_t plaintext[] = "Hello, World";
std::uint8_t message_1[::olm_encrypt_message_length(a_session, 12)];
std::uint8_t a_message_random[::olm_encrypt_random_length(a_session)];
mock_random_a(a_message_random, sizeof(a_message_random));
assert_equals(std::size_t(0), ::olm_encrypt_message_type(a_session));
assert_not_equals(std::size_t(-1), ::olm_encrypt(
a_session,
plaintext, 12,
a_message_random, sizeof(a_message_random),
message_1, sizeof(message_1)
));
std::uint8_t tmp_message_1[sizeof(message_1)];
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
std::uint8_t b_session_buffer[::olm_account_size()];
::OlmSession *b_session = ::olm_session(b_session_buffer);
::olm_create_inbound_session(
b_session, b_account, tmp_message_1, sizeof(message_1)
);
// Check that the inbound session matches the message it was created from.
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
assert_equals(std::size_t(1), ::olm_matches_inbound_session(
b_session,
tmp_message_1, sizeof(message_1)
));
// Check that the inbound session matches the key this message is supposed
// to be from.
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
assert_equals(std::size_t(1), ::olm_matches_inbound_session_from(
b_session,
a_id_keys + 15, 43, // A's curve125519 identity key.
tmp_message_1, sizeof(message_1)
));
// Check that the inbound session isn't from a different user.
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
assert_equals(std::size_t(0), ::olm_matches_inbound_session_from(
b_session,
b_id_keys + 15, 43, // B's curve25519 identity key.
tmp_message_1, sizeof(message_1)
));
// Check that we can decrypt the message.
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
std::uint8_t plaintext_1[::olm_decrypt_max_plaintext_length(
b_session, 0, tmp_message_1, sizeof(message_1)
)];
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
assert_equals(std::size_t(12), ::olm_decrypt(
b_session, 0,
tmp_message_1, sizeof(message_1),
plaintext_1, sizeof(plaintext_1)
));
assert_equals(plaintext, plaintext_1, 12);
std::uint8_t message_2[::olm_encrypt_message_length(b_session, 12)];
std::uint8_t b_message_random[::olm_encrypt_random_length(b_session)];
mock_random_b(b_message_random, sizeof(b_message_random));
assert_equals(std::size_t(1), ::olm_encrypt_message_type(b_session));
assert_not_equals(std::size_t(-1), ::olm_encrypt(
b_session,
plaintext, 12,
b_message_random, sizeof(b_message_random),
message_2, sizeof(message_2)
));
std::uint8_t tmp_message_2[sizeof(message_2)];
std::memcpy(tmp_message_2, message_2, sizeof(message_2));
std::uint8_t plaintext_2[::olm_decrypt_max_plaintext_length(
a_session, 1, tmp_message_2, sizeof(message_2)
)];
std::memcpy(tmp_message_2, message_2, sizeof(message_2));
assert_equals(std::size_t(12), ::olm_decrypt(
a_session, 1,
tmp_message_2, sizeof(message_2),
plaintext_2, sizeof(plaintext_2)
));
assert_equals(plaintext, plaintext_2, 12);
std::memcpy(tmp_message_2, message_2, sizeof(message_2));
assert_equals(std::size_t(-1), ::olm_decrypt(
a_session, 1,
tmp_message_2, sizeof(message_2),
plaintext_2, sizeof(plaintext_2)
));
std::uint8_t a_session_id[::olm_session_id_length(a_session)];
assert_not_equals(std::size_t(-1), ::olm_session_id(
a_session, a_session_id, sizeof(a_session_id)
));
std::uint8_t b_session_id[::olm_session_id_length(b_session)];
assert_not_equals(std::size_t(-1), ::olm_session_id(
b_session, b_session_id, sizeof(b_session_id)
));
assert_equals(sizeof(a_session_id), sizeof(b_session_id));
assert_equals(a_session_id, b_session_id, sizeof(b_session_id));
}
{ /** More messages test */
TestCase test_case("More messages test");
MockRandom mock_random_a('A', 0x00);
MockRandom mock_random_b('B', 0x80);
std::uint8_t a_account_buffer[::olm_account_size()];
::OlmAccount *a_account = ::olm_account(a_account_buffer);
std::uint8_t a_random[::olm_create_account_random_length(a_account)];
mock_random_a(a_random, sizeof(a_random));
::olm_create_account(a_account, a_random, sizeof(a_random));
std::uint8_t b_account_buffer[::olm_account_size()];
::OlmAccount *b_account = ::olm_account(b_account_buffer);
std::uint8_t b_random[::olm_create_account_random_length(b_account)];
mock_random_b(b_random, sizeof(b_random));
::olm_create_account(b_account, b_random, sizeof(b_random));
std::uint8_t o_random[::olm_account_generate_one_time_keys_random_length(
b_account, 42
)];
mock_random_b(o_random, sizeof(o_random));
::olm_account_generate_one_time_keys(b_account, 42, o_random, sizeof(o_random));
std::uint8_t b_id_keys[::olm_account_identity_keys_length(b_account)];
std::uint8_t b_ot_keys[::olm_account_one_time_keys_length(b_account)];
::olm_account_identity_keys(b_account, b_id_keys, sizeof(b_id_keys));
::olm_account_one_time_keys(b_account, b_ot_keys, sizeof(b_ot_keys));
std::uint8_t a_session_buffer[::olm_session_size()];
::OlmSession *a_session = ::olm_session(a_session_buffer);
std::uint8_t a_rand[::olm_create_outbound_session_random_length(a_session)];
mock_random_a(a_rand, sizeof(a_rand));
assert_not_equals(std::size_t(-1), ::olm_create_outbound_session(
a_session, a_account,
b_id_keys + 15, 43,
b_ot_keys + 25, 43,
a_rand, sizeof(a_rand)
));
std::uint8_t plaintext[] = "Hello, World";
std::uint8_t message_1[::olm_encrypt_message_length(a_session, 12)];
std::uint8_t a_message_random[::olm_encrypt_random_length(a_session)];
mock_random_a(a_message_random, sizeof(a_message_random));
assert_equals(std::size_t(0), ::olm_encrypt_message_type(a_session));
assert_not_equals(std::size_t(-1), ::olm_encrypt(
a_session,
plaintext, 12,
a_message_random, sizeof(a_message_random),
message_1, sizeof(message_1)
));
std::uint8_t tmp_message_1[sizeof(message_1)];
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
std::uint8_t b_session_buffer[::olm_account_size()];
::OlmSession *b_session = ::olm_session(b_session_buffer);
::olm_create_inbound_session(
b_session, b_account, tmp_message_1, sizeof(message_1)
);
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
std::uint8_t plaintext_1[::olm_decrypt_max_plaintext_length(
b_session, 0, tmp_message_1, sizeof(message_1)
)];
std::memcpy(tmp_message_1, message_1, sizeof(message_1));
assert_equals(std::size_t(12), ::olm_decrypt(
b_session, 0,
tmp_message_1, sizeof(message_1),
plaintext_1, sizeof(plaintext_1)
));
for (unsigned i = 0; i < 8; ++i) {
{
std::uint8_t msg_a[::olm_encrypt_message_length(a_session, 12)];
std::uint8_t rnd_a[::olm_encrypt_random_length(a_session)];
mock_random_a(rnd_a, sizeof(rnd_a));
std::size_t type_a = ::olm_encrypt_message_type(a_session);
assert_not_equals(std::size_t(-1), ::olm_encrypt(
a_session, plaintext, 12, rnd_a, sizeof(rnd_a), msg_a, sizeof(msg_a)
));
std::uint8_t tmp_a[sizeof(msg_a)];
std::memcpy(tmp_a, msg_a, sizeof(msg_a));
std::uint8_t out_a[::olm_decrypt_max_plaintext_length(
b_session, type_a, tmp_a, sizeof(tmp_a)
)];
std::memcpy(tmp_a, msg_a, sizeof(msg_a));
assert_equals(std::size_t(12), ::olm_decrypt(
b_session, type_a, msg_a, sizeof(msg_a), out_a, sizeof(out_a)
));
}
{
std::uint8_t msg_b[::olm_encrypt_message_length(b_session, 12)];
std::uint8_t rnd_b[::olm_encrypt_random_length(b_session)];
mock_random_b(rnd_b, sizeof(rnd_b));
std::size_t type_b = ::olm_encrypt_message_type(b_session);
assert_not_equals(std::size_t(-1), ::olm_encrypt(
b_session, plaintext, 12, rnd_b, sizeof(rnd_b), msg_b, sizeof(msg_b)
));
std::uint8_t tmp_b[sizeof(msg_b)];
std::memcpy(tmp_b, msg_b, sizeof(msg_b));
std::uint8_t out_b[::olm_decrypt_max_plaintext_length(
a_session, type_b, tmp_b, sizeof(tmp_b)
)];
std::memcpy(tmp_b, msg_b, sizeof(msg_b));
assert_equals(std::size_t(12), ::olm_decrypt(
a_session, type_b, msg_b, sizeof(msg_b), out_b, sizeof(out_b)
));
}
}
}
}