// Copyright (c) 2014-2023, The Monero Project // // All rights reserved. // // Redistribution and use in source and binary forms, with or without modification, are // permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, this list of // conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright notice, this list // of conditions and the following disclaimer in the documentation and/or other // materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its contributors may be // used to endorse or promote products derived from this software without specific // prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL // THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, // STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF // THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Parts of this file are originally copyright (c) 2012-2013 The Cryptonote developers #include "gtest/gtest.h" #include "wallet/api/wallet2_api.h" #include "wallet/wallet2.h" #include "include_base_utils.h" #include "common/util.h" #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; //unsigned int epee::g_test_dbg_lock_sleep = 0; namespace Consts { // TODO: get rid of hardcoded paths const char * WALLET_NAME = "testwallet"; const char * WALLET_NAME_MAINNET = "testwallet_mainnet"; const char * WALLET_NAME_COPY = "testwallet_copy"; const char * WALLET_NAME_WITH_DIR = "walletdir/testwallet_test"; const char * WALLET_NAME_WITH_DIR_NON_WRITABLE = "/var/walletdir/testwallet_test"; const char * WALLET_PASS = "password"; const char * WALLET_PASS2 = "password22"; const char * WALLET_LANG = "English"; std::string WALLETS_ROOT_DIR = "/var/monero/testnet_pvt"; std::string TESTNET_WALLET1_NAME; std::string TESTNET_WALLET2_NAME; std::string TESTNET_WALLET3_NAME; std::string TESTNET_WALLET4_NAME; std::string TESTNET_WALLET5_NAME; std::string TESTNET_WALLET6_NAME; const char * TESTNET_WALLET_PASS = ""; std::string CURRENT_SRC_WALLET; std::string CURRENT_DST_WALLET; const uint64_t AMOUNT_10XMR = 10000000000000L; const uint64_t AMOUNT_5XMR = 5000000000000L; const uint64_t AMOUNT_1XMR = 1000000000000L; const std::string PAYMENT_ID_EMPTY = ""; std::string TESTNET_DAEMON_ADDRESS = "localhost:38081"; std::string MAINNET_DAEMON_ADDRESS = "localhost:18081"; } using namespace Consts; struct Utils { static void deleteWallet(const std::string & walletname) { std::cout << "** deleting wallet: " << walletname << std::endl; boost::filesystem::remove(walletname); boost::filesystem::remove(walletname + ".address.txt"); boost::filesystem::remove(walletname + ".keys"); } static void deleteDir(const std::string &path) { std::cout << "** removing dir recursively: " << path << std::endl; boost::filesystem::remove_all(path); } static void print_transaction(Monero::TransactionInfo * t) { std::cout << "d: " << (t->direction() == Monero::TransactionInfo::Direction_In ? "in" : "out") << ", pe: " << (t->isPending() ? "true" : "false") << ", bh: " << t->blockHeight() << ", a: " << Monero::Wallet::displayAmount(t->amount()) << ", f: " << Monero::Wallet::displayAmount(t->fee()) << ", h: " << t->hash() << ", pid: " << t->paymentId() << std::endl; } static std::string get_wallet_address(const std::string &filename, const std::string &password) { Monero::WalletManager *wmgr = Monero::WalletManagerFactory::getWalletManager(); Monero::Wallet * w = wmgr->openWallet(filename, password, Monero::NetworkType::TESTNET); std::string result = w->mainAddress(); wmgr->closeWallet(w); return result; } }; struct WalletManagerTest : public testing::Test { Monero::WalletManager * wmgr; WalletManagerTest() { std::cout << __FUNCTION__ << std::endl; wmgr = Monero::WalletManagerFactory::getWalletManager(); // Monero::WalletManagerFactory::setLogLevel(Monero::WalletManagerFactory::LogLevel_4); Utils::deleteWallet(WALLET_NAME); Utils::deleteDir(boost::filesystem::path(WALLET_NAME_WITH_DIR).parent_path().string()); } ~WalletManagerTest() { std::cout << __FUNCTION__ << std::endl; //deleteWallet(WALLET_NAME); } }; struct WalletManagerMainnetTest : public testing::Test { Monero::WalletManager * wmgr; WalletManagerMainnetTest() { std::cout << __FUNCTION__ << std::endl; wmgr = Monero::WalletManagerFactory::getWalletManager(); Utils::deleteWallet(WALLET_NAME_MAINNET); } ~WalletManagerMainnetTest() { std::cout << __FUNCTION__ << std::endl; } }; struct WalletTest1 : public testing::Test { Monero::WalletManager * wmgr; WalletTest1() { wmgr = Monero::WalletManagerFactory::getWalletManager(); } }; struct WalletTest2 : public testing::Test { Monero::WalletManager * wmgr; WalletTest2() { wmgr = Monero::WalletManagerFactory::getWalletManager(); } }; TEST_F(WalletManagerTest, WalletManagerCreatesWallet) { Monero::Wallet * wallet = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(!wallet->seed().empty()); std::vector words; std::string seed = wallet->seed(); boost::split(words, seed, boost::is_any_of(" "), boost::token_compress_on); ASSERT_TRUE(words.size() == 25); std::cout << "** seed: " << wallet->seed() << std::endl; ASSERT_FALSE(wallet->mainAddress().empty()); std::cout << "** address: " << wallet->mainAddress() << std::endl; ASSERT_TRUE(wmgr->closeWallet(wallet)); } TEST_F(WalletManagerTest, WalletManagerOpensWallet) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Monero::Wallet * wallet2 = wmgr->openWallet(WALLET_NAME, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet2->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet2->seed() == seed1); std::cout << "** seed: " << wallet2->seed() << std::endl; } TEST_F(WalletManagerTest, WalletMaxAmountAsString) { LOG_PRINT_L3("max amount: " << Monero::Wallet::displayAmount( Monero::Wallet::maximumAllowedAmount())); } TEST_F(WalletManagerTest, WalletAmountFromString) { uint64_t amount = Monero::Wallet::amountFromString("18446740"); ASSERT_TRUE(amount > 0); amount = Monero::Wallet::amountFromString("11000000000000"); ASSERT_FALSE(amount > 0); amount = Monero::Wallet::amountFromString("0.0"); ASSERT_FALSE(amount > 0); amount = Monero::Wallet::amountFromString("10.1"); ASSERT_TRUE(amount > 0); } void open_wallet_helper(Monero::WalletManager *wmgr, Monero::Wallet **wallet, const std::string &pass, boost::mutex *mutex) { if (mutex) mutex->lock(); LOG_PRINT_L3("opening wallet in thread: " << boost::this_thread::get_id()); *wallet = wmgr->openWallet(WALLET_NAME, pass, Monero::NetworkType::TESTNET); LOG_PRINT_L3("wallet address: " << (*wallet)->mainAddress()); LOG_PRINT_L3("wallet status: " << (*wallet)->status()); LOG_PRINT_L3("closing wallet in thread: " << boost::this_thread::get_id()); if (mutex) mutex->unlock(); } //TEST_F(WalletManagerTest, WalletManagerOpensWalletWithPasswordAndReopenMultiThreaded) //{ // // create password protected wallet // std::string wallet_pass = "password"; // std::string wrong_wallet_pass = "1111"; // Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, wallet_pass, WALLET_LANG, Monero::NetworkType::TESTNET); // std::string seed1 = wallet1->seed(); // ASSERT_TRUE(wmgr->closeWallet(wallet1)); // Monero::Wallet *wallet2 = nullptr; // Monero::Wallet *wallet3 = nullptr; // std::mutex mutex; // std::thread thread1(open_wallet, wmgr, &wallet2, wrong_wallet_pass, &mutex); // thread1.join(); // ASSERT_TRUE(wallet2->status() != Monero::Wallet::Status_Ok); // ASSERT_TRUE(wmgr->closeWallet(wallet2)); // std::thread thread2(open_wallet, wmgr, &wallet3, wallet_pass, &mutex); // thread2.join(); // ASSERT_TRUE(wallet3->status() == Monero::Wallet::Status_Ok); // ASSERT_TRUE(wmgr->closeWallet(wallet3)); //} TEST_F(WalletManagerTest, WalletManagerOpensWalletWithPasswordAndReopen) { // create password protected wallet std::string wallet_pass = "password"; std::string wrong_wallet_pass = "1111"; Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, wallet_pass, WALLET_LANG, Monero::NetworkType::TESTNET); std::string seed1 = wallet1->seed(); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Monero::Wallet *wallet2 = nullptr; Monero::Wallet *wallet3 = nullptr; boost::mutex mutex; open_wallet_helper(wmgr, &wallet2, wrong_wallet_pass, nullptr); ASSERT_TRUE(wallet2 != nullptr); ASSERT_TRUE(wallet2->status() != Monero::Wallet::Status_Ok); ASSERT_TRUE(wmgr->closeWallet(wallet2)); open_wallet_helper(wmgr, &wallet3, wallet_pass, nullptr); ASSERT_TRUE(wallet3 != nullptr); ASSERT_TRUE(wallet3->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wmgr->closeWallet(wallet3)); } TEST_F(WalletManagerTest, WalletManagerStoresWallet) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); wallet1->store(""); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Monero::Wallet * wallet2 = wmgr->openWallet(WALLET_NAME, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet2->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet2->seed() == seed1); } TEST_F(WalletManagerTest, WalletManagerMovesWallet) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string WALLET_NAME_MOVED = std::string("/tmp/") + WALLET_NAME + ".moved"; std::string seed1 = wallet1->seed(); ASSERT_TRUE(wallet1->store(WALLET_NAME_MOVED)); Monero::Wallet * wallet2 = wmgr->openWallet(WALLET_NAME_MOVED, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet2->filename() == WALLET_NAME_MOVED); ASSERT_TRUE(wallet2->keysFilename() == WALLET_NAME_MOVED + ".keys"); ASSERT_TRUE(wallet2->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet2->seed() == seed1); } TEST_F(WalletManagerTest, WalletManagerChangesPassword) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); ASSERT_TRUE(wallet1->setPassword(WALLET_PASS2)); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Monero::Wallet * wallet2 = wmgr->openWallet(WALLET_NAME, WALLET_PASS2, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet2->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet2->seed() == seed1); ASSERT_TRUE(wmgr->closeWallet(wallet2)); Monero::Wallet * wallet3 = wmgr->openWallet(WALLET_NAME, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_FALSE(wallet3->status() == Monero::Wallet::Status_Ok); } TEST_F(WalletManagerTest, WalletManagerRecoversWallet) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); std::string address1 = wallet1->mainAddress(); ASSERT_FALSE(address1.empty()); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Utils::deleteWallet(WALLET_NAME); Monero::Wallet * wallet2 = wmgr->recoveryWallet(WALLET_NAME, seed1, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet2->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet2->seed() == seed1); ASSERT_TRUE(wallet2->mainAddress() == address1); ASSERT_TRUE(wmgr->closeWallet(wallet2)); } TEST_F(WalletManagerTest, WalletManagerStoresWallet1) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); std::string address1 = wallet1->mainAddress(); ASSERT_TRUE(wallet1->store("")); ASSERT_TRUE(wallet1->store(WALLET_NAME_COPY)); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Monero::Wallet * wallet2 = wmgr->openWallet(WALLET_NAME_COPY, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet2->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet2->seed() == seed1); ASSERT_TRUE(wallet2->mainAddress() == address1); ASSERT_TRUE(wmgr->closeWallet(wallet2)); } TEST_F(WalletManagerTest, WalletManagerStoresWallet2) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); std::string address1 = wallet1->mainAddress(); ASSERT_TRUE(wallet1->store(WALLET_NAME_WITH_DIR)); ASSERT_TRUE(wmgr->closeWallet(wallet1)); wallet1 = wmgr->openWallet(WALLET_NAME_WITH_DIR, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet1->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet1->seed() == seed1); ASSERT_TRUE(wallet1->mainAddress() == address1); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletManagerTest, WalletManagerStoresWallet3) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); std::string address1 = wallet1->mainAddress(); ASSERT_FALSE(wallet1->store(WALLET_NAME_WITH_DIR_NON_WRITABLE)); ASSERT_TRUE(wmgr->closeWallet(wallet1)); wallet1 = wmgr->openWallet(WALLET_NAME_WITH_DIR_NON_WRITABLE, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_FALSE(wallet1->status() == Monero::Wallet::Status_Ok); // "close" always returns true; ASSERT_TRUE(wmgr->closeWallet(wallet1)); wallet1 = wmgr->openWallet(WALLET_NAME, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet1->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet1->seed() == seed1); ASSERT_TRUE(wallet1->mainAddress() == address1); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletManagerTest, WalletManagerStoresWallet4) { Monero::Wallet * wallet1 = wmgr->createWallet(WALLET_NAME, WALLET_PASS, WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed1 = wallet1->seed(); std::string address1 = wallet1->mainAddress(); ASSERT_TRUE(wallet1->store("")); ASSERT_TRUE(wallet1->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet1->store("")); ASSERT_TRUE(wallet1->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wmgr->closeWallet(wallet1)); wallet1 = wmgr->openWallet(WALLET_NAME, WALLET_PASS, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet1->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet1->seed() == seed1); ASSERT_TRUE(wallet1->mainAddress() == address1); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletManagerTest, WalletManagerFindsWallet) { std::vector wallets = wmgr->findWallets(WALLETS_ROOT_DIR); ASSERT_FALSE(wallets.empty()); std::cout << "Found wallets: " << std::endl; for (auto wallet_path: wallets) { std::cout << wallet_path << std::endl; } } TEST_F(WalletTest1, WalletGeneratesPaymentId) { std::string payment_id = Monero::Wallet::genPaymentId(); ASSERT_TRUE(payment_id.length() == 16); } TEST_F(WalletTest1, WalletGeneratesIntegratedAddress) { std::string payment_id = Monero::Wallet::genPaymentId(); Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); std::string integrated_address = wallet1->integratedAddress(payment_id); ASSERT_TRUE(integrated_address.length() == 106); } TEST_F(WalletTest1, WalletShowsBalance) { Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); ASSERT_TRUE(wallet1->balance(0) > 0); ASSERT_TRUE(wallet1->unlockedBalance(0) > 0); uint64_t balance1 = wallet1->balance(0); uint64_t unlockedBalance1 = wallet1->unlockedBalance(0); ASSERT_TRUE(wmgr->closeWallet(wallet1)); Monero::Wallet * wallet2 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); ASSERT_TRUE(balance1 == wallet2->balance(0)); std::cout << "wallet balance: " << wallet2->balance(0) << std::endl; ASSERT_TRUE(unlockedBalance1 == wallet2->unlockedBalance(0)); std::cout << "wallet unlocked balance: " << wallet2->unlockedBalance(0) << std::endl; ASSERT_TRUE(wmgr->closeWallet(wallet2)); } TEST_F(WalletTest1, WalletReturnsCurrentBlockHeight) { Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); ASSERT_TRUE(wallet1->blockChainHeight() > 0); wmgr->closeWallet(wallet1); } TEST_F(WalletTest1, WalletReturnsDaemonBlockHeight) { Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // wallet not connected to daemon ASSERT_TRUE(wallet1->daemonBlockChainHeight() == 0); ASSERT_TRUE(wallet1->status() != Monero::Wallet::Status_Ok); ASSERT_FALSE(wallet1->errorString().empty()); wmgr->closeWallet(wallet1); wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // wallet connected to daemon wallet1->init(TESTNET_DAEMON_ADDRESS, 0); ASSERT_TRUE(wallet1->daemonBlockChainHeight() > 0); std::cout << "daemonBlockChainHeight: " << wallet1->daemonBlockChainHeight() << std::endl; wmgr->closeWallet(wallet1); } TEST_F(WalletTest1, WalletRefresh) { std::cout << "Opening wallet: " << CURRENT_SRC_WALLET << std::endl; Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running std::cout << "connecting to daemon: " << TESTNET_DAEMON_ADDRESS << std::endl; ASSERT_TRUE(wallet1->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet1->refresh()); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletTest1, WalletConvertsToString) { std::string strAmount = Monero::Wallet::displayAmount(AMOUNT_5XMR); ASSERT_TRUE(AMOUNT_5XMR == Monero::Wallet::amountFromString(strAmount)); ASSERT_TRUE(AMOUNT_5XMR == Monero::Wallet::amountFromDouble(5.0)); ASSERT_TRUE(AMOUNT_10XMR == Monero::Wallet::amountFromDouble(10.0)); ASSERT_TRUE(AMOUNT_1XMR == Monero::Wallet::amountFromDouble(1.0)); } TEST_F(WalletTest1, WalletTransaction) { Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet1->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet1->refresh()); uint64_t balance = wallet1->balance(0); ASSERT_TRUE(wallet1->status() == Monero::PendingTransaction::Status_Ok); std::string recepient_address = Utils::get_wallet_address(CURRENT_DST_WALLET, TESTNET_WALLET_PASS); const int MIXIN_COUNT = 4; Monero::PendingTransaction * transaction = wallet1->createTransaction(recepient_address, PAYMENT_ID_EMPTY, AMOUNT_10XMR, MIXIN_COUNT, Monero::PendingTransaction::Priority_Medium, 0, std::set{}); ASSERT_TRUE(transaction->status() == Monero::PendingTransaction::Status_Ok); wallet1->refresh(); ASSERT_TRUE(wallet1->balance(0) == balance); ASSERT_TRUE(transaction->amount() == AMOUNT_10XMR); ASSERT_TRUE(transaction->commit()); ASSERT_FALSE(wallet1->balance(0) == balance); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletTest1, WalletTransactionWithMixin) { std::vector mixins; // 2,3,4,5,6,7,8,9,10,15,20,25 can we do it like that? mixins.push_back(2); mixins.push_back(3); mixins.push_back(4); mixins.push_back(5); mixins.push_back(6); mixins.push_back(7); mixins.push_back(8); mixins.push_back(9); mixins.push_back(10); mixins.push_back(15); mixins.push_back(20); mixins.push_back(25); std::string payment_id = ""; Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet1->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet1->refresh()); uint64_t balance = wallet1->balance(0); ASSERT_TRUE(wallet1->status() == Monero::PendingTransaction::Status_Ok); std::string recepient_address = Utils::get_wallet_address(CURRENT_DST_WALLET, TESTNET_WALLET_PASS); for (auto mixin : mixins) { std::cerr << "Transaction mixin count: " << mixin << std::endl; Monero::PendingTransaction * transaction = wallet1->createTransaction( recepient_address, payment_id, AMOUNT_5XMR, mixin, Monero::PendingTransaction::Priority_Medium, 0, std::set{}); std::cerr << "Transaction status: " << transaction->status() << std::endl; std::cerr << "Transaction fee: " << Monero::Wallet::displayAmount(transaction->fee()) << std::endl; std::cerr << "Transaction error: " << transaction->errorString() << std::endl; ASSERT_TRUE(transaction->status() == Monero::PendingTransaction::Status_Ok); wallet1->disposeTransaction(transaction); } wallet1->refresh(); ASSERT_TRUE(wallet1->balance(0) == balance); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletTest1, WalletTransactionWithPriority) { std::string payment_id = ""; Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet1->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet1->refresh()); uint64_t balance = wallet1->balance(0); ASSERT_TRUE(wallet1->status() == Monero::PendingTransaction::Status_Ok); std::string recepient_address = Utils::get_wallet_address(CURRENT_DST_WALLET, TESTNET_WALLET_PASS); uint32_t mixin = 2; uint64_t fee = 0; std::vector priorities = { Monero::PendingTransaction::Priority_Low, Monero::PendingTransaction::Priority_Medium, Monero::PendingTransaction::Priority_High }; for (auto it = priorities.begin(); it != priorities.end(); ++it) { std::cerr << "Transaction priority: " << *it << std::endl; Monero::PendingTransaction * transaction = wallet1->createTransaction( recepient_address, payment_id, AMOUNT_5XMR, mixin, *it, 0, std::set{}); std::cerr << "Transaction status: " << transaction->status() << std::endl; std::cerr << "Transaction fee: " << Monero::Wallet::displayAmount(transaction->fee()) << std::endl; std::cerr << "Transaction error: " << transaction->errorString() << std::endl; ASSERT_TRUE(transaction->fee() > fee); ASSERT_TRUE(transaction->status() == Monero::PendingTransaction::Status_Ok); fee = transaction->fee(); wallet1->disposeTransaction(transaction); } wallet1->refresh(); ASSERT_TRUE(wallet1->balance(0) == balance); ASSERT_TRUE(wmgr->closeWallet(wallet1)); } TEST_F(WalletTest1, WalletHistory) { Monero::Wallet * wallet1 = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet1->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet1->refresh()); Monero::TransactionHistory * history = wallet1->history(); history->refresh(); ASSERT_TRUE(history->count() > 0); for (auto t: history->getAll()) { ASSERT_TRUE(t != nullptr); Utils::print_transaction(t); } } TEST_F(WalletTest1, WalletTransactionAndHistory) { return; Monero::Wallet * wallet_src = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet_src->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_src->refresh()); Monero::TransactionHistory * history = wallet_src->history(); history->refresh(); ASSERT_TRUE(history->count() > 0); size_t count1 = history->count(); std::cout << "**** Transactions before transfer (" << count1 << ")" << std::endl; for (auto t: history->getAll()) { ASSERT_TRUE(t != nullptr); Utils::print_transaction(t); } std::string wallet4_addr = Utils::get_wallet_address(CURRENT_DST_WALLET, TESTNET_WALLET_PASS); Monero::PendingTransaction * tx = wallet_src->createTransaction(wallet4_addr, PAYMENT_ID_EMPTY, AMOUNT_10XMR * 5, 1, Monero::PendingTransaction::Priority_Medium, 0, std::set{}); ASSERT_TRUE(tx->status() == Monero::PendingTransaction::Status_Ok); ASSERT_TRUE(tx->commit()); history = wallet_src->history(); history->refresh(); ASSERT_TRUE(count1 != history->count()); std::cout << "**** Transactions after transfer (" << history->count() << ")" << std::endl; for (auto t: history->getAll()) { ASSERT_TRUE(t != nullptr); Utils::print_transaction(t); } } TEST_F(WalletTest1, WalletTransactionWithPaymentId) { Monero::Wallet * wallet_src = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet_src->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_src->refresh()); Monero::TransactionHistory * history = wallet_src->history(); history->refresh(); ASSERT_TRUE(history->count() > 0); size_t count1 = history->count(); std::cout << "**** Transactions before transfer (" << count1 << ")" << std::endl; for (auto t: history->getAll()) { ASSERT_TRUE(t != nullptr); Utils::print_transaction(t); } std::string wallet4_addr = Utils::get_wallet_address(CURRENT_DST_WALLET, TESTNET_WALLET_PASS); std::string payment_id = Monero::Wallet::genPaymentId(); ASSERT_TRUE(payment_id.length() == 16); Monero::PendingTransaction * tx = wallet_src->createTransaction(wallet4_addr, payment_id, AMOUNT_1XMR, 1, Monero::PendingTransaction::Priority_Medium, 0, std::set{}); ASSERT_TRUE(tx->status() == Monero::PendingTransaction::Status_Ok); ASSERT_TRUE(tx->commit()); history = wallet_src->history(); history->refresh(); ASSERT_TRUE(count1 != history->count()); bool payment_id_in_history = false; std::cout << "**** Transactions after transfer (" << history->count() << ")" << std::endl; for (auto t: history->getAll()) { ASSERT_TRUE(t != nullptr); Utils::print_transaction(t); if (t->paymentId() == payment_id) { payment_id_in_history = true; } } ASSERT_TRUE(payment_id_in_history); } struct MyWalletListener : public Monero::WalletListener { Monero::Wallet * wallet; uint64_t total_tx; uint64_t total_rx; boost::mutex mutex; boost::condition_variable cv_send; boost::condition_variable cv_receive; boost::condition_variable cv_update; boost::condition_variable cv_refresh; boost::condition_variable cv_newblock; bool send_triggered; bool receive_triggered; bool newblock_triggered; bool update_triggered; bool refresh_triggered; MyWalletListener(Monero::Wallet * wallet) : total_tx(0), total_rx(0) { reset(); this->wallet = wallet; this->wallet->setListener(this); } void reset() { send_triggered = receive_triggered = newblock_triggered = update_triggered = refresh_triggered = false; } virtual void moneySpent(const string &txId, uint64_t amount) { std::cerr << "wallet: " << wallet->mainAddress() << "**** just spent money (" << txId << ", " << wallet->displayAmount(amount) << ")" << std::endl; total_tx += amount; send_triggered = true; cv_send.notify_one(); } virtual void moneyReceived(const string &txId, uint64_t amount) { std::cout << "wallet: " << wallet->mainAddress() << "**** just received money (" << txId << ", " << wallet->displayAmount(amount) << ")" << std::endl; total_rx += amount; receive_triggered = true; cv_receive.notify_one(); } virtual void unconfirmedMoneyReceived(const string &txId, uint64_t amount) { std::cout << "wallet: " << wallet->mainAddress() << "**** just received unconfirmed money (" << txId << ", " << wallet->displayAmount(amount) << ")" << std::endl; // Don't trigger receive until tx is mined // total_rx += amount; // receive_triggered = true; // cv_receive.notify_one(); } virtual void newBlock(uint64_t height) { // std::cout << "wallet: " << wallet->mainAddress() // <<", new block received, blockHeight: " << height << std::endl; static int bc_height = wallet->daemonBlockChainHeight(); std::cout << height << " / " << bc_height/* 0*/ << std::endl; newblock_triggered = true; cv_newblock.notify_one(); } virtual void updated() { std::cout << __FUNCTION__ << "Wallet updated"; update_triggered = true; cv_update.notify_one(); } virtual void refreshed() { std::cout << __FUNCTION__ << "Wallet refreshed"; refresh_triggered = true; cv_refresh.notify_one(); } }; TEST_F(WalletTest2, WalletCallBackRefreshedSync) { Monero::Wallet * wallet_src = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); MyWalletListener * wallet_src_listener = new MyWalletListener(wallet_src); ASSERT_TRUE(wallet_src->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_src_listener->refresh_triggered); ASSERT_TRUE(wallet_src->connected()); boost::chrono::seconds wait_for = boost::chrono::seconds(60*3); boost::unique_lock lock (wallet_src_listener->mutex); wallet_src_listener->cv_refresh.wait_for(lock, wait_for); wmgr->closeWallet(wallet_src); } TEST_F(WalletTest2, WalletCallBackRefreshedAsync) { Monero::Wallet * wallet_src = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); MyWalletListener * wallet_src_listener = new MyWalletListener(wallet_src); boost::chrono::seconds wait_for = boost::chrono::seconds(20); boost::unique_lock lock (wallet_src_listener->mutex); wallet_src->init(MAINNET_DAEMON_ADDRESS, 0); wallet_src->startRefresh(); std::cerr << "TEST: waiting on refresh lock...\n"; wallet_src_listener->cv_refresh.wait_for(lock, wait_for); std::cerr << "TEST: refresh lock acquired...\n"; ASSERT_TRUE(wallet_src_listener->refresh_triggered); ASSERT_TRUE(wallet_src->connected()); std::cerr << "TEST: closing wallet...\n"; wmgr->closeWallet(wallet_src); } TEST_F(WalletTest2, WalletCallbackSent) { Monero::Wallet * wallet_src = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet_src->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_src->refresh()); MyWalletListener * wallet_src_listener = new MyWalletListener(wallet_src); uint64_t balance = wallet_src->balance(0); std::cout << "** Balance: " << wallet_src->displayAmount(wallet_src->balance(0)) << std::endl; Monero::Wallet * wallet_dst = wmgr->openWallet(CURRENT_DST_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); uint64_t amount = AMOUNT_1XMR * 5; std::cout << "** Sending " << Monero::Wallet::displayAmount(amount) << " to " << wallet_dst->mainAddress(); Monero::PendingTransaction * tx = wallet_src->createTransaction(wallet_dst->mainAddress(), PAYMENT_ID_EMPTY, amount, 1, Monero::PendingTransaction::Priority_Medium, 0, std::set{}); std::cout << "** Committing transaction: " << Monero::Wallet::displayAmount(tx->amount()) << " with fee: " << Monero::Wallet::displayAmount(tx->fee()); ASSERT_TRUE(tx->status() == Monero::PendingTransaction::Status_Ok); ASSERT_TRUE(tx->commit()); boost::chrono::seconds wait_for = boost::chrono::seconds(60*3); boost::unique_lock lock (wallet_src_listener->mutex); std::cerr << "TEST: waiting on send lock...\n"; wallet_src_listener->cv_send.wait_for(lock, wait_for); std::cerr << "TEST: send lock acquired...\n"; ASSERT_TRUE(wallet_src_listener->send_triggered); ASSERT_TRUE(wallet_src_listener->update_triggered); std::cout << "** Balance: " << wallet_src->displayAmount(wallet_src->balance(0)) << std::endl; ASSERT_TRUE(wallet_src->balance(0) < balance); wmgr->closeWallet(wallet_src); wmgr->closeWallet(wallet_dst); } TEST_F(WalletTest2, WalletCallbackReceived) { Monero::Wallet * wallet_src = wmgr->openWallet(CURRENT_SRC_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet_src->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_src->refresh()); std::cout << "** Balance src1: " << wallet_src->displayAmount(wallet_src->balance(0)) << std::endl; Monero::Wallet * wallet_dst = wmgr->openWallet(CURRENT_DST_WALLET, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); ASSERT_TRUE(wallet_dst->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_dst->refresh()); uint64_t balance = wallet_dst->balance(0); std::cout << "** Balance dst1: " << wallet_dst->displayAmount(wallet_dst->balance(0)) << std::endl; std::unique_ptr wallet_dst_listener (new MyWalletListener(wallet_dst)); uint64_t amount = AMOUNT_1XMR * 5; std::cout << "** Sending " << Monero::Wallet::displayAmount(amount) << " to " << wallet_dst->mainAddress(); Monero::PendingTransaction * tx = wallet_src->createTransaction(wallet_dst->mainAddress(), PAYMENT_ID_EMPTY, amount, 1, Monero::PendingTransaction::Priority_Medium, 0, std::set{}); std::cout << "** Committing transaction: " << Monero::Wallet::displayAmount(tx->amount()) << " with fee: " << Monero::Wallet::displayAmount(tx->fee()); ASSERT_TRUE(tx->status() == Monero::PendingTransaction::Status_Ok); ASSERT_TRUE(tx->commit()); boost::chrono::seconds wait_for = boost::chrono::seconds(60*4); boost::unique_lock lock (wallet_dst_listener->mutex); std::cerr << "TEST: waiting on receive lock...\n"; wallet_dst_listener->cv_receive.wait_for(lock, wait_for); std::cerr << "TEST: receive lock acquired...\n"; ASSERT_TRUE(wallet_dst_listener->receive_triggered); ASSERT_TRUE(wallet_dst_listener->update_triggered); std::cout << "** Balance src2: " << wallet_dst->displayAmount(wallet_src->balance(0)) << std::endl; std::cout << "** Balance dst2: " << wallet_dst->displayAmount(wallet_dst->balance(0)) << std::endl; ASSERT_TRUE(wallet_dst->balance(0) > balance); wmgr->closeWallet(wallet_src); wmgr->closeWallet(wallet_dst); } TEST_F(WalletTest2, WalletCallbackNewBlock) { Monero::Wallet * wallet_src = wmgr->openWallet(TESTNET_WALLET5_NAME, TESTNET_WALLET_PASS, Monero::NetworkType::TESTNET); // make sure testnet daemon is running ASSERT_TRUE(wallet_src->init(TESTNET_DAEMON_ADDRESS, 0)); ASSERT_TRUE(wallet_src->refresh()); uint64_t bc1 = wallet_src->blockChainHeight(); std::cout << "** Block height: " << bc1 << std::endl; std::unique_ptr wallet_listener (new MyWalletListener(wallet_src)); // wait max 4 min for new block boost::chrono::seconds wait_for = boost::chrono::seconds(60*4); boost::unique_lock lock (wallet_listener->mutex); std::cerr << "TEST: waiting on newblock lock...\n"; wallet_listener->cv_newblock.wait_for(lock, wait_for); std::cerr << "TEST: newblock lock acquired...\n"; ASSERT_TRUE(wallet_listener->newblock_triggered); uint64_t bc2 = wallet_src->blockChainHeight(); std::cout << "** Block height: " << bc2 << std::endl; ASSERT_TRUE(bc2 > bc1); wmgr->closeWallet(wallet_src); } TEST_F(WalletManagerMainnetTest, CreateOpenAndRefreshWalletMainNetSync) { Monero::Wallet * wallet = wmgr->createWallet(WALLET_NAME_MAINNET, "", WALLET_LANG, Monero::NetworkType::MAINNET); std::unique_ptr wallet_listener (new MyWalletListener(wallet)); wallet->init(MAINNET_DAEMON_ADDRESS, 0); std::cerr << "TEST: waiting on refresh lock...\n"; //wallet_listener->cv_refresh.wait_for(lock, wait_for); std::cerr << "TEST: refresh lock acquired...\n"; ASSERT_TRUE(wallet_listener->refresh_triggered); ASSERT_TRUE(wallet->connected()); ASSERT_TRUE(wallet->blockChainHeight() == wallet->daemonBlockChainHeight()); std::cerr << "TEST: closing wallet...\n"; wmgr->closeWallet(wallet); } TEST_F(WalletManagerMainnetTest, CreateAndRefreshWalletMainNetAsync) { // supposing 120 seconds should be enough for fast refresh int SECONDS_TO_REFRESH = 120; Monero::Wallet * wallet = wmgr->createWallet(WALLET_NAME_MAINNET, "", WALLET_LANG, Monero::NetworkType::MAINNET); std::unique_ptr wallet_listener (new MyWalletListener(wallet)); boost::chrono::seconds wait_for = boost::chrono::seconds(SECONDS_TO_REFRESH); boost::unique_lock lock (wallet_listener->mutex); wallet->init(MAINNET_DAEMON_ADDRESS, 0); wallet->startRefresh(); std::cerr << "TEST: waiting on refresh lock...\n"; wallet_listener->cv_refresh.wait_for(lock, wait_for); std::cerr << "TEST: refresh lock acquired...\n"; ASSERT_TRUE(wallet->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet_listener->refresh_triggered); ASSERT_TRUE(wallet->connected()); ASSERT_TRUE(wallet->blockChainHeight() == wallet->daemonBlockChainHeight()); std::cerr << "TEST: closing wallet...\n"; wmgr->closeWallet(wallet); } TEST_F(WalletManagerMainnetTest, OpenAndRefreshWalletMainNetAsync) { // supposing 120 seconds should be enough for fast refresh int SECONDS_TO_REFRESH = 120; Monero::Wallet * wallet = wmgr->createWallet(WALLET_NAME_MAINNET, "", WALLET_LANG, Monero::NetworkType::MAINNET); wmgr->closeWallet(wallet); wallet = wmgr->openWallet(WALLET_NAME_MAINNET, "", Monero::NetworkType::MAINNET); std::unique_ptr wallet_listener (new MyWalletListener(wallet)); boost::chrono::seconds wait_for = boost::chrono::seconds(SECONDS_TO_REFRESH); boost::unique_lock lock (wallet_listener->mutex); wallet->init(MAINNET_DAEMON_ADDRESS, 0); wallet->startRefresh(); std::cerr << "TEST: waiting on refresh lock...\n"; wallet_listener->cv_refresh.wait_for(lock, wait_for); std::cerr << "TEST: refresh lock acquired...\n"; ASSERT_TRUE(wallet->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet_listener->refresh_triggered); ASSERT_TRUE(wallet->connected()); ASSERT_TRUE(wallet->blockChainHeight() == wallet->daemonBlockChainHeight()); std::cerr << "TEST: closing wallet...\n"; wmgr->closeWallet(wallet); } TEST_F(WalletManagerMainnetTest, RecoverAndRefreshWalletMainNetAsync) { // supposing 120 seconds should be enough for fast refresh int SECONDS_TO_REFRESH = 120; Monero::Wallet * wallet = wmgr->createWallet(WALLET_NAME_MAINNET, "", WALLET_LANG, Monero::NetworkType::MAINNET); std::string seed = wallet->seed(); std::string address = wallet->mainAddress(); wmgr->closeWallet(wallet); // deleting wallet files Utils::deleteWallet(WALLET_NAME_MAINNET); // ..and recovering wallet from seed wallet = wmgr->recoveryWallet(WALLET_NAME_MAINNET, seed, Monero::NetworkType::MAINNET); ASSERT_TRUE(wallet->status() == Monero::Wallet::Status_Ok); ASSERT_TRUE(wallet->mainAddress() == address); std::unique_ptr wallet_listener (new MyWalletListener(wallet)); boost::chrono::seconds wait_for = boost::chrono::seconds(SECONDS_TO_REFRESH); boost::unique_lock lock (wallet_listener->mutex); wallet->init(MAINNET_DAEMON_ADDRESS, 0); wallet->startRefresh(); std::cerr << "TEST: waiting on refresh lock...\n"; // here we wait for 120 seconds and test if wallet doesn't syncrnonize blockchain completely, // as it needs much more than 120 seconds for mainnet wallet_listener->cv_refresh.wait_for(lock, wait_for); ASSERT_TRUE(wallet->status() == Monero::Wallet::Status_Ok); ASSERT_FALSE(wallet_listener->refresh_triggered); ASSERT_TRUE(wallet->connected()); ASSERT_FALSE(wallet->blockChainHeight() == wallet->daemonBlockChainHeight()); std::cerr << "TEST: closing wallet...\n"; wmgr->closeWallet(wallet); std::cerr << "TEST: wallet closed\n"; } int main(int argc, char** argv) { TRY_ENTRY(); tools::on_startup(); // we can override default values for "TESTNET_DAEMON_ADDRESS" and "WALLETS_ROOT_DIR" const char * testnet_daemon_addr = std::getenv("TESTNET_DAEMON_ADDRESS"); if (testnet_daemon_addr) { TESTNET_DAEMON_ADDRESS = testnet_daemon_addr; } const char * mainnet_daemon_addr = std::getenv("MAINNET_DAEMON_ADDRESS"); if (mainnet_daemon_addr) { MAINNET_DAEMON_ADDRESS = mainnet_daemon_addr; } const char * wallets_root_dir = std::getenv("WALLETS_ROOT_DIR"); if (wallets_root_dir) { WALLETS_ROOT_DIR = wallets_root_dir; } TESTNET_WALLET1_NAME = WALLETS_ROOT_DIR + "/wallet_01.bin"; TESTNET_WALLET2_NAME = WALLETS_ROOT_DIR + "/wallet_02.bin"; TESTNET_WALLET3_NAME = WALLETS_ROOT_DIR + "/wallet_03.bin"; TESTNET_WALLET4_NAME = WALLETS_ROOT_DIR + "/wallet_04.bin"; TESTNET_WALLET5_NAME = WALLETS_ROOT_DIR + "/wallet_05.bin"; TESTNET_WALLET6_NAME = WALLETS_ROOT_DIR + "/wallet_06.bin"; CURRENT_SRC_WALLET = TESTNET_WALLET5_NAME; CURRENT_DST_WALLET = TESTNET_WALLET1_NAME; ::testing::InitGoogleTest(&argc, argv); Monero::WalletManagerFactory::setLogLevel(Monero::WalletManagerFactory::LogLevel_Max); return RUN_ALL_TESTS(); CATCH_ENTRY_L0("main", 1); }