416 lines
11 KiB
C++
416 lines
11 KiB
C++
// Copyright (c) 2011-2015 The Cryptonote developers
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// Distributed under the MIT/X11 software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include "gtest/gtest.h"
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#include "transfers/BlockchainSynchronizer.h"
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#include "transfers/TransfersSynchronizer.h"
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#include "INodeStubs.h"
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#include "TestBlockchainGenerator.h"
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#include "TransactionApiHelpers.h"
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#include "cryptonote_core/TransactionApi.h"
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#include <boost/scoped_array.hpp>
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#include <future>
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#include <algorithm>
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using namespace CryptoNote;
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class TransfersObserver : public ITransfersObserver {
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public:
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virtual void onTransactionUpdated(ITransfersSubscription* object, const Hash& transactionHash) override {
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std::lock_guard<std::mutex> lk(m_mutex);
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m_transfers.emplace_back(transactionHash);
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}
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std::vector<Hash> m_transfers;
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std::mutex m_mutex;
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};
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class TransfersApi : public ::testing::Test, public IBlockchainSynchronizerObserver {
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public:
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TransfersApi() :
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m_currency(cryptonote::CurrencyBuilder().currency()),
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generator(m_currency),
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m_node(generator),
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m_sync(m_node, m_currency.genesisBlockHash()),
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m_transfersSync(m_currency, m_sync, m_node) {
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}
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void addAccounts(size_t count) {
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while (count--) {
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m_accounts.push_back(generateAccountKeys());
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}
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}
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void addPaymentAccounts(size_t count) {
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auto viewKeys = generateKeys();
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while (count--) {
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m_accounts.push_back(accountKeysFromKeypairs(viewKeys, generateKeys()));
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}
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}
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void addMinerAccount() {
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m_accounts.push_back(reinterpret_cast<const AccountKeys&>(generator.getMinerAccount()));
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}
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AccountSubscription createSubscription(size_t acc, uint64_t timestamp = 0) {
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const auto& keys = m_accounts[acc];
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AccountSubscription sub;
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sub.keys = keys;
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sub.syncStart.timestamp = timestamp;
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sub.syncStart.height = 0;
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sub.transactionSpendableAge = 5;
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return sub;
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}
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void subscribeAccounts() {
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m_transferObservers.reset(new TransfersObserver[m_accounts.size()]);
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for (size_t i = 0; i < m_accounts.size(); ++i) {
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m_subscriptions.push_back(&m_transfersSync.addSubscription(createSubscription(i)));
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m_subscriptions.back()->addObserver(&m_transferObservers[i]);
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}
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}
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void startSync() {
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syncCompleted = std::promise<std::error_code>();
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syncCompletedFuture = syncCompleted.get_future();
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m_sync.addObserver(this);
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m_sync.start();
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syncCompletedFuture.get();
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m_sync.removeObserver(this);
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}
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void refreshSync() {
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syncCompleted = std::promise<std::error_code>();
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syncCompletedFuture = syncCompleted.get_future();
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m_sync.addObserver(this);
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m_sync.lastKnownBlockHeightUpdated(0);
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syncCompletedFuture.get();
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m_sync.removeObserver(this);
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}
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void synchronizationCompleted(std::error_code result) override {
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decltype(syncCompleted) detachedPromise = std::move(syncCompleted);
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detachedPromise.set_value(result);
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}
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void generateMoneyForAccount(size_t idx) {
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generator.getBlockRewardForAddress(
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reinterpret_cast<const cryptonote::AccountPublicAddress&>(m_accounts[idx].address));
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}
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std::error_code submitTransaction(ITransactionReader& tx) {
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auto data = tx.getTransactionData();
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cryptonote::blobdata txblob(data.data(), data.data() + data.size());
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cryptonote::Transaction outTx;
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cryptonote::parse_and_validate_tx_from_blob(txblob, outTx);
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std::promise<std::error_code> result;
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m_node.relayTransaction(outTx, [&result](std::error_code ec) {
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std::promise<std::error_code> detachedPromise = std::move(result);
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detachedPromise.set_value(ec);
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});
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return result.get_future().get();
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}
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protected:
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boost::scoped_array<TransfersObserver> m_transferObservers;
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std::vector<AccountKeys> m_accounts;
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std::vector<ITransfersSubscription*> m_subscriptions;
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cryptonote::Currency m_currency;
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TestBlockchainGenerator generator;
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INodeTrivialRefreshStub m_node;
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BlockchainSynchronizer m_sync;
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TransfersSyncronizer m_transfersSync;
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std::promise<std::error_code> syncCompleted;
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std::future<std::error_code> syncCompletedFuture;
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};
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namespace CryptoNote {
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inline bool operator == (const TransactionOutputInformation& t1, const TransactionOutputInformation& t2) {
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return
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t1.type == t2.type &&
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t1.amount == t2.amount &&
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t1.outputInTransaction == t2.outputInTransaction &&
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t1.transactionPublicKey == t2.transactionPublicKey;
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}
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}
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TEST_F(TransfersApi, testSubscriptions) {
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addAccounts(1);
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m_transfersSync.addSubscription(createSubscription(0));
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std::vector<AccountAddress> subscriptions;
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m_transfersSync.getSubscriptions(subscriptions);
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const auto& addr = m_accounts[0].address;
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ASSERT_EQ(1, subscriptions.size());
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ASSERT_EQ(addr, subscriptions[0]);
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ASSERT_TRUE(m_transfersSync.getSubscription(addr) != 0);
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ASSERT_TRUE(m_transfersSync.removeSubscription(addr));
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subscriptions.clear();
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m_transfersSync.getSubscriptions(subscriptions);
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ASSERT_EQ(0, subscriptions.size());
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}
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TEST_F(TransfersApi, syncOneBlock) {
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addAccounts(2);
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subscribeAccounts();
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generator.getBlockRewardForAddress(reinterpret_cast<const cryptonote::AccountPublicAddress&>(m_accounts[0].address));
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generator.generateEmptyBlocks(15);
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startSync();
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auto& tc1 = m_transfersSync.getSubscription(m_accounts[0].address)->getContainer();
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auto& tc2 = m_transfersSync.getSubscription(m_accounts[1].address)->getContainer();
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ASSERT_NE(&tc1, &tc2);
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ASSERT_GT(tc1.balance(ITransfersContainer::IncludeAll), 0);
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ASSERT_GT(tc1.transfersCount(), 0);
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ASSERT_EQ(0, tc2.transfersCount());
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}
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TEST_F(TransfersApi, syncMinerAcc) {
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addMinerAccount();
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subscribeAccounts();
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generator.generateEmptyBlocks(10);
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startSync();
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ASSERT_NE(0, m_subscriptions[0]->getContainer().transfersCount());
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}
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namespace {
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std::unique_ptr<ITransaction> createMoneyTransfer(
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uint64_t amount,
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uint64_t fee,
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const AccountKeys& senderKeys,
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const AccountAddress& reciever,
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ITransfersContainer& tc) {
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std::vector<TransactionOutputInformation> transfers;
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tc.getOutputs(transfers, ITransfersContainer::IncludeAllUnlocked);
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auto tx = createTransaction();
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std::vector<std::pair<TransactionTypes::InputKeyInfo, KeyPair>> inputs;
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uint64_t foundMoney = 0;
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for (const auto& t : transfers) {
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TransactionTypes::InputKeyInfo info;
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info.amount = t.amount;
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TransactionTypes::GlobalOutput globalOut;
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globalOut.outputIndex = t.globalOutputIndex;
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globalOut.targetKey = t.outputKey;
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info.outputs.push_back(globalOut);
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info.realOutput.outputInTransaction = t.outputInTransaction;
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info.realOutput.transactionIndex = 0;
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info.realOutput.transactionPublicKey = t.transactionPublicKey;
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KeyPair kp;
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tx->addInput(senderKeys, info, kp);
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inputs.push_back(std::make_pair(info, kp));
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foundMoney += info.amount;
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if (foundMoney >= amount + fee) {
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break;
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}
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}
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// output to reciever
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tx->addOutput(amount, reciever);
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// change
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uint64_t change = foundMoney - amount - fee;
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if (change) {
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tx->addOutput(change, senderKeys.address);
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}
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for (size_t inputIdx = 0; inputIdx < inputs.size(); ++inputIdx) {
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tx->signInputKey(inputIdx, inputs[inputIdx].first, inputs[inputIdx].second);
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}
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return tx;
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}
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}
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TEST_F(TransfersApi, moveMoney) {
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addMinerAccount();
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addAccounts(2);
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subscribeAccounts();
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generator.generateEmptyBlocks(2 * m_currency.minedMoneyUnlockWindow());
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// sendAmount is an even number
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uint64_t sendAmount = (cryptonote::get_outs_money_amount(generator.getBlockchain()[1].minerTx) / 4) * 2;
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auto fee = m_currency.minimumFee();
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startSync();
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auto& tc0 = m_subscriptions[0]->getContainer();
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auto prevBalance = tc0.balance();
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ASSERT_LE(sendAmount, tc0.balance(ITransfersContainer::IncludeAllUnlocked));
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auto tx = createMoneyTransfer(sendAmount, fee, m_accounts[0], m_accounts[1].address, tc0);
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submitTransaction(*tx);
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refreshSync();
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ASSERT_EQ(1, m_transferObservers[1].m_transfers.size());
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ASSERT_EQ(tx->getTransactionHash(), m_transferObservers[1].m_transfers[0]);
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auto& tc1 = m_subscriptions[1]->getContainer();
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ASSERT_EQ(sendAmount, tc1.balance(ITransfersContainer::IncludeAll));
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ASSERT_EQ(0, tc1.balance(ITransfersContainer::IncludeAllUnlocked));
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generator.generateEmptyBlocks(m_currency.minedMoneyUnlockWindow()); // unlock money
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refreshSync();
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ASSERT_EQ(sendAmount, tc1.balance(ITransfersContainer::IncludeAllUnlocked));
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auto tx2 = createMoneyTransfer(sendAmount / 2, fee, m_accounts[1], m_accounts[2].address, tc1);
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submitTransaction(*tx2);
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refreshSync();
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ASSERT_EQ(2, m_transferObservers[1].m_transfers.size());
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ASSERT_EQ(tx2->getTransactionHash(), m_transferObservers[1].m_transfers.back());
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ASSERT_EQ(sendAmount / 2 - fee, m_subscriptions[1]->getContainer().balance(ITransfersContainer::IncludeAll));
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ASSERT_EQ(sendAmount / 2, m_subscriptions[2]->getContainer().balance(ITransfersContainer::IncludeAll));
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}
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struct lessOutKey {
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bool operator()(const TransactionOutputInformation& t1, const TransactionOutputInformation& t2) {
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return t1.outputKey < t2.outputKey;
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}
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};
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bool compareStates(TransfersSyncronizer& sync1, TransfersSyncronizer& sync2) {
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std::vector<AccountAddress> subs;
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sync1.getSubscriptions(subs);
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for (const auto& s : subs) {
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auto& tc1 = sync1.getSubscription(s)->getContainer();
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if (sync2.getSubscription(s) == nullptr)
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return false;
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auto& tc2 = sync2.getSubscription(s)->getContainer();
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std::vector<TransactionOutputInformation> out1;
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std::vector<TransactionOutputInformation> out2;
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tc1.getOutputs(out1);
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tc2.getOutputs(out2);
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std::sort(out1.begin(), out1.end(), lessOutKey());
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std::sort(out2.begin(), out2.end(), lessOutKey());
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if (out1 != out2)
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return false;
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}
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return true;
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}
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TEST_F(TransfersApi, state) {
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addMinerAccount();
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subscribeAccounts();
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generator.generateEmptyBlocks(20);
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startSync();
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m_sync.stop();
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std::stringstream memstm;
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m_transfersSync.save(memstm);
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m_sync.start();
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BlockchainSynchronizer bsync2(m_node, m_currency.genesisBlockHash());
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TransfersSyncronizer sync2(m_currency, bsync2, m_node);
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for (size_t i = 0; i < m_accounts.size(); ++i) {
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sync2.addSubscription(createSubscription(i));
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}
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sync2.load(memstm);
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// compare transfers
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ASSERT_TRUE(compareStates(m_transfersSync, sync2));
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// generate more blocks
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generator.generateEmptyBlocks(10);
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refreshSync();
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syncCompleted = std::promise<std::error_code>();
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syncCompletedFuture = syncCompleted.get_future();
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bsync2.addObserver(this);
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bsync2.start();
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syncCompletedFuture.get();
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bsync2.removeObserver(this);
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// check again
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ASSERT_TRUE(compareStates(m_transfersSync, sync2));
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}
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TEST_F(TransfersApi, sameTrackingKey) {
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size_t offset = 2; // miner account + ordinary account
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size_t paymentAddresses = 1000;
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size_t payments = 10;
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addMinerAccount();
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addAccounts(1);
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addPaymentAccounts(paymentAddresses);
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subscribeAccounts();
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for (size_t i = 0; i < payments; ++i) {
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generateMoneyForAccount(i + offset);
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}
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startSync();
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for (size_t i = 0; i < payments; ++i) {
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auto sub = m_subscriptions[offset + i];
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EXPECT_NE(0, sub->getContainer().balance(ITransfersContainer::IncludeAll));
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}
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}
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