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-rw-r--r--tests/unit_tests/multisig.cpp179
1 files changed, 75 insertions, 104 deletions
diff --git a/tests/unit_tests/multisig.cpp b/tests/unit_tests/multisig.cpp
index 83924c7af..7268f2690 100644
--- a/tests/unit_tests/multisig.cpp
+++ b/tests/unit_tests/multisig.cpp
@@ -49,9 +49,19 @@ static const struct
{
"9t6Hn946u3eah5cuncH1hB5hGzsTUoevtf4SY7MHN5NgJZh2SFWsyVt3vUhuHyRKyrCQvr71Lfc1AevG3BXE11PQFoXDtD8",
"bbd3175ef9fd9f5eefdc43035f882f74ad14c4cf1799d8b6f9001bc197175d02"
+ },
+ {
+ "9zmAWoNyNPbgnYSm3nJNpAKHm6fCcs3MR94gBWxp9MCDUiMUhyYFfyQETUDLPF7DP6ZsmNo6LRxwPP9VmhHNxKrER9oGigT",
+ "f2efae45bef1917a7430cda8fcffc4ee010e3178761aa41d4628e23b1fe2d501"
+ },
+ {
+ "9ue8NJMg3WzKxTtmjeXzWYF5KmU6dC7LHEt9wvYdPn2qMmoFUa8hJJHhSHvJ46UEwpDyy5jSboNMRaDBKwU54NT42YcNUp5",
+ "a4cef54ed3fd61cd78a2ceb82ecf85a903ad2db9a86fb77ff56c35c56016280a"
}
};
+static const size_t KEYS_COUNT = 5;
+
static void make_wallet(unsigned int idx, tools::wallet2 &wallet)
{
ASSERT_TRUE(idx < sizeof(test_addresses) / sizeof(test_addresses[0]));
@@ -76,126 +86,87 @@ static void make_wallet(unsigned int idx, tools::wallet2 &wallet)
}
}
-static void make_M_2_wallet(tools::wallet2 &wallet0, tools::wallet2 &wallet1, unsigned int M)
+static std::vector<std::string> exchange_round(std::vector<tools::wallet2>& wallets, const std::vector<std::string>& mis)
{
- ASSERT_TRUE(M <= 2);
-
- make_wallet(0, wallet0);
- make_wallet(1, wallet1);
-
- std::vector<crypto::secret_key> sk0(1), sk1(1);
- std::vector<crypto::public_key> pk0(1), pk1(1);
-
- wallet0.decrypt_keys("");
- std::string mi0 = wallet0.get_multisig_info();
- wallet0.encrypt_keys("");
- wallet1.decrypt_keys("");
- std::string mi1 = wallet1.get_multisig_info();
- wallet1.encrypt_keys("");
-
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi1, sk0[0], pk0[0]));
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi0, sk1[0], pk1[0]));
-
- ASSERT_FALSE(wallet0.multisig() || wallet1.multisig());
- wallet0.make_multisig("", sk0, pk0, M);
- wallet1.make_multisig("", sk1, pk1, M);
-
- ASSERT_TRUE(wallet0.get_account().get_public_address_str(cryptonote::TESTNET) == wallet1.get_account().get_public_address_str(cryptonote::TESTNET));
-
- bool ready;
- uint32_t threshold, total;
- ASSERT_TRUE(wallet0.multisig(&ready, &threshold, &total));
- ASSERT_TRUE(ready);
- ASSERT_TRUE(threshold == M);
- ASSERT_TRUE(total == 2);
- ASSERT_TRUE(wallet1.multisig(&ready, &threshold, &total));
- ASSERT_TRUE(ready);
- ASSERT_TRUE(threshold == M);
- ASSERT_TRUE(total == 2);
+ std::vector<std::string> new_infos;
+ for (size_t i = 0; i < wallets.size(); ++i) {
+ new_infos.push_back(wallets[i].exchange_multisig_keys("", mis));
+ }
+
+ return new_infos;
}
-static void make_M_3_wallet(tools::wallet2 &wallet0, tools::wallet2 &wallet1, tools::wallet2 &wallet2, unsigned int M)
+static void make_wallets(std::vector<tools::wallet2>& wallets, unsigned int M)
{
- ASSERT_TRUE(M <= 3);
-
- make_wallet(0, wallet0);
- make_wallet(1, wallet1);
- make_wallet(2, wallet2);
-
- std::vector<crypto::secret_key> sk0(2), sk1(2), sk2(2);
- std::vector<crypto::public_key> pk0(2), pk1(2), pk2(2);
-
- wallet0.decrypt_keys("");
- std::string mi0 = wallet0.get_multisig_info();
- wallet0.encrypt_keys("");
- wallet1.decrypt_keys("");
- std::string mi1 = wallet1.get_multisig_info();
- wallet1.encrypt_keys("");
- wallet2.decrypt_keys("");
- std::string mi2 = wallet2.get_multisig_info();
- wallet2.encrypt_keys("");
-
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi1, sk0[0], pk0[0]));
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi2, sk0[1], pk0[1]));
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi0, sk1[0], pk1[0]));
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi2, sk1[1], pk1[1]));
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi0, sk2[0], pk2[0]));
- ASSERT_TRUE(tools::wallet2::verify_multisig_info(mi1, sk2[1], pk2[1]));
-
- ASSERT_FALSE(wallet0.multisig() || wallet1.multisig() || wallet2.multisig());
- std::string mxi0 = wallet0.make_multisig("", sk0, pk0, M);
- std::string mxi1 = wallet1.make_multisig("", sk1, pk1, M);
- std::string mxi2 = wallet2.make_multisig("", sk2, pk2, M);
-
- const size_t nset = !mxi0.empty() + !mxi1.empty() + !mxi2.empty();
- ASSERT_TRUE((M < 3 && nset == 3) || (M == 3 && nset == 0));
-
- if (nset > 0)
- {
- std::unordered_set<crypto::public_key> pkeys;
- std::vector<crypto::public_key> signers(3, crypto::null_pkey);
- ASSERT_TRUE(tools::wallet2::verify_extra_multisig_info(mxi0, pkeys, signers[0]));
- ASSERT_TRUE(tools::wallet2::verify_extra_multisig_info(mxi1, pkeys, signers[1]));
- ASSERT_TRUE(tools::wallet2::verify_extra_multisig_info(mxi2, pkeys, signers[2]));
- ASSERT_TRUE(pkeys.size() == 3);
- ASSERT_TRUE(wallet0.finalize_multisig("", pkeys, signers));
- ASSERT_TRUE(wallet1.finalize_multisig("", pkeys, signers));
- ASSERT_TRUE(wallet2.finalize_multisig("", pkeys, signers));
+ ASSERT_TRUE(wallets.size() > 1 && wallets.size() <= KEYS_COUNT);
+ ASSERT_TRUE(M <= wallets.size());
+
+ std::vector<std::string> mis(wallets.size());
+
+ for (size_t i = 0; i < wallets.size(); ++i) {
+ make_wallet(i, wallets[i]);
+
+ wallets[i].decrypt_keys("");
+ mis[i] = wallets[i].get_multisig_info();
+ wallets[i].encrypt_keys("");
+ }
+
+ for (auto& wallet: wallets) {
+ ASSERT_FALSE(wallet.multisig() || wallet.multisig() || wallet.multisig());
+ }
+
+ std::vector<std::string> mxis;
+ for (size_t i = 0; i < wallets.size(); ++i) {
+ // it's ok to put all of multisig keys in this function. it throws in case of error
+ mxis.push_back(wallets[i].make_multisig("", mis, M));
}
- ASSERT_TRUE(wallet0.get_account().get_public_address_str(cryptonote::TESTNET) == wallet1.get_account().get_public_address_str(cryptonote::TESTNET));
- ASSERT_TRUE(wallet0.get_account().get_public_address_str(cryptonote::TESTNET) == wallet2.get_account().get_public_address_str(cryptonote::TESTNET));
-
- bool ready;
- uint32_t threshold, total;
- ASSERT_TRUE(wallet0.multisig(&ready, &threshold, &total));
- ASSERT_TRUE(ready);
- ASSERT_TRUE(threshold == M);
- ASSERT_TRUE(total == 3);
- ASSERT_TRUE(wallet1.multisig(&ready, &threshold, &total));
- ASSERT_TRUE(ready);
- ASSERT_TRUE(threshold == M);
- ASSERT_TRUE(total == 3);
- ASSERT_TRUE(wallet2.multisig(&ready, &threshold, &total));
- ASSERT_TRUE(ready);
- ASSERT_TRUE(threshold == M);
- ASSERT_TRUE(total == 3);
+ while (!mxis[0].empty()) {
+ mxis = exchange_round(wallets, mxis);
+ }
+
+ for (size_t i = 0; i < wallets.size(); ++i) {
+ ASSERT_TRUE(mxis[i].empty());
+ bool ready;
+ uint32_t threshold, total;
+ ASSERT_TRUE(wallets[i].multisig(&ready, &threshold, &total));
+ ASSERT_TRUE(ready);
+ ASSERT_TRUE(threshold == M);
+ ASSERT_TRUE(total == wallets.size());
+
+ if (i != 0) {
+ // "equals" is transitive relation so we need only to compare first wallet's address to each others' addresses. no need to compare 0's address with itself.
+ ASSERT_TRUE(wallets[0].get_account().get_public_address_str(cryptonote::TESTNET) == wallets[i].get_account().get_public_address_str(cryptonote::TESTNET));
+ }
+ }
}
TEST(multisig, make_2_2)
{
- tools::wallet2 wallet0, wallet1;
- make_M_2_wallet(wallet0, wallet1, 2);
+ std::vector<tools::wallet2> wallets(2);
+ make_wallets(wallets, 2);
}
TEST(multisig, make_3_3)
{
- tools::wallet2 wallet0, wallet1, wallet2;
- make_M_3_wallet(wallet0, wallet1, wallet2, 3);
+ std::vector<tools::wallet2> wallets(3);
+ make_wallets(wallets, 3);
}
TEST(multisig, make_2_3)
{
- tools::wallet2 wallet0, wallet1, wallet2;
- make_M_3_wallet(wallet0, wallet1, wallet2, 2);
+ std::vector<tools::wallet2> wallets(3);
+ make_wallets(wallets, 2);
+}
+
+TEST(multisig, make_2_4)
+{
+ std::vector<tools::wallet2> wallets(4);
+ make_wallets(wallets, 2);
+}
+
+TEST(multisig, make_2_5)
+{
+ std::vector<tools::wallet2> wallets(5);
+ make_wallets(wallets, 2);
}