danicoin/src/Wallet/WalletGreen.cpp

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// Copyright (c) 2012-2015, The CryptoNote developers, The Bytecoin developers
//
// This file is part of Bytecoin.
//
// Bytecoin is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// Bytecoin is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with Bytecoin. If not, see <http://www.gnu.org/licenses/>.
#include "WalletGreen.h"
#include <algorithm>
#include <ctime>
#include <cassert>
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#include <numeric>
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#include <random>
#include <set>
#include <tuple>
#include <utility>
#include <System/EventLock.h>
#include "ITransaction.h"
#include "Common/ShuffleGenerator.h"
#include "Common/StdInputStream.h"
#include "Common/StdOutputStream.h"
#include "Common/StringTools.h"
#include "CryptoNoteCore/Account.h"
#include "CryptoNoteCore/Currency.h"
#include "CryptoNoteCore/CryptoNoteFormatUtils.h"
#include "CryptoNoteCore/CryptoNoteTools.h"
#include "CryptoNoteCore/TransactionApi.h"
#include "crypto/crypto.h"
#include "Transfers/TransfersContainer.h"
#include "WalletSerialization.h"
#include "WalletErrors.h"
using namespace Common;
using namespace Crypto;
using namespace CryptoNote;
namespace {
void asyncRequestCompletion(System::Event& requestFinished) {
requestFinished.set();
}
void parseAddressString(const std::string& string, const CryptoNote::Currency& currency, CryptoNote::AccountPublicAddress& address) {
if (!currency.parseAccountAddressString(string, address)) {
throw std::system_error(make_error_code(CryptoNote::error::BAD_ADDRESS));
}
}
bool validateAddress(const std::string& address, const CryptoNote::Currency& currency) {
CryptoNote::AccountPublicAddress ignore;
return currency.parseAccountAddressString(address, ignore);
}
void validateAddresses(const std::vector<CryptoNote::WalletTransfer>& destinations, const CryptoNote::Currency& currency) {
for (const auto& destination: destinations) {
if (!validateAddress(destination.address, currency)) {
throw std::system_error(make_error_code(CryptoNote::error::BAD_ADDRESS));
}
}
}
uint64_t countNeededMoney(const std::vector<CryptoNote::WalletTransfer>& destinations, uint64_t fee) {
uint64_t neededMoney = 0;
for (const auto& transfer: destinations) {
if (transfer.amount == 0) {
throw std::system_error(make_error_code(CryptoNote::error::ZERO_DESTINATION));
} else if (transfer.amount < 0) {
throw std::system_error(make_error_code(std::errc::invalid_argument));
}
//to supress warning
uint64_t uamount = static_cast<uint64_t>(transfer.amount);
neededMoney += uamount;
if (neededMoney < uamount) {
throw std::system_error(make_error_code(CryptoNote::error::SUM_OVERFLOW));
}
}
neededMoney += fee;
if (neededMoney < fee) {
throw std::system_error(make_error_code(CryptoNote::error::SUM_OVERFLOW));
}
return neededMoney;
}
void checkIfEnoughMixins(std::vector<CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::outs_for_amount>& mixinResult, uint64_t mixIn) {
auto notEnoughIt = std::find_if(mixinResult.begin(), mixinResult.end(),
[mixIn] (const CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::outs_for_amount& ofa) { return ofa.outs.size() < mixIn; } );
if (mixIn == 0 && mixinResult.empty()) {
throw std::system_error(make_error_code(CryptoNote::error::MIXIN_COUNT_TOO_BIG));
}
if (notEnoughIt != mixinResult.end()) {
throw std::system_error(make_error_code(CryptoNote::error::MIXIN_COUNT_TOO_BIG));
}
}
CryptoNote::WalletEvent makeTransactionUpdatedEvent(size_t id) {
CryptoNote::WalletEvent event;
event.type = CryptoNote::WalletEventType::TRANSACTION_UPDATED;
event.transactionUpdated.transactionIndex = id;
return event;
}
CryptoNote::WalletEvent makeTransactionCreatedEvent(size_t id) {
CryptoNote::WalletEvent event;
event.type = CryptoNote::WalletEventType::TRANSACTION_CREATED;
event.transactionCreated.transactionIndex = id;
return event;
}
CryptoNote::WalletEvent makeMoneyUnlockedEvent() {
CryptoNote::WalletEvent event;
event.type = CryptoNote::WalletEventType::BALANCE_UNLOCKED;
return event;
}
CryptoNote::WalletEvent makeSyncProgressUpdatedEvent(uint32_t current, uint32_t total) {
CryptoNote::WalletEvent event;
event.type = CryptoNote::WalletEventType::SYNC_PROGRESS_UPDATED;
event.synchronizationProgressUpdated.processedBlockCount = current;
event.synchronizationProgressUpdated.totalBlockCount = total;
return event;
}
CryptoNote::WalletEvent makeSyncCompletedEvent() {
CryptoNote::WalletEvent event;
event.type = CryptoNote::WalletEventType::SYNC_COMPLETED;
return event;
}
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size_t getTransactionSize(const ITransactionReader& transaction) {
return transaction.getTransactionData().size();
}
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}
namespace CryptoNote {
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WalletGreen::WalletGreen(System::Dispatcher& dispatcher, const Currency& currency, INode& node, uint32_t transactionSoftLockTime) :
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m_dispatcher(dispatcher),
m_currency(currency),
m_node(node),
m_blockchainSynchronizer(node, currency.genesisBlockHash()),
m_synchronizer(currency, m_blockchainSynchronizer, node),
m_eventOccured(m_dispatcher),
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m_readyEvent(m_dispatcher),
m_transactionSoftLockTime(transactionSoftLockTime)
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{
m_upperTransactionSizeLimit = m_currency.blockGrantedFullRewardZone() * 125 / 100 - m_currency.minerTxBlobReservedSize();
m_readyEvent.set();
}
WalletGreen::~WalletGreen() {
if (m_state == WalletState::INITIALIZED) {
doShutdown();
}
m_dispatcher.yield(); //let remote spawns finish
}
void WalletGreen::initialize(const std::string& password) {
Crypto::PublicKey viewPublicKey;
Crypto::SecretKey viewSecretKey;
Crypto::generate_keys(viewPublicKey, viewSecretKey);
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initWithKeys(viewPublicKey, viewSecretKey, password);
}
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void WalletGreen::initializeWithViewKey(const Crypto::SecretKey& viewSecretKey, const std::string& password) {
Crypto::PublicKey viewPublicKey;
if (!Crypto::secret_key_to_public_key(viewSecretKey, viewPublicKey)) {
throw std::system_error(make_error_code(CryptoNote::error::KEY_GENERATION_ERROR));
}
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initWithKeys(viewPublicKey, viewSecretKey, password);
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}
void WalletGreen::shutdown() {
throwIfNotInitialized();
doShutdown();
m_dispatcher.yield(); //let remote spawns finish
}
void WalletGreen::doShutdown() {
m_blockchainSynchronizer.stop();
m_blockchainSynchronizer.removeObserver(this);
clearCaches();
std::queue<WalletEvent> noEvents;
std::swap(m_events, noEvents);
m_state = WalletState::NOT_INITIALIZED;
}
void WalletGreen::clearCaches() {
std::vector<AccountPublicAddress> subscriptions;
m_synchronizer.getSubscriptions(subscriptions);
std::for_each(subscriptions.begin(), subscriptions.end(), [this] (const AccountPublicAddress& address) { m_synchronizer.removeSubscription(address); });
m_walletsContainer.clear();
m_spentOutputs.clear();
m_unlockTransactionsJob.clear();
m_transactions.clear();
m_transfers.clear();
m_change.clear();
m_actualBalance = 0;
m_pendingBalance = 0;
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m_fusionTxsCache.clear();
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}
void WalletGreen::initWithKeys(const Crypto::PublicKey& viewPublicKey, const Crypto::SecretKey& viewSecretKey, const std::string& password) {
if (m_state != WalletState::NOT_INITIALIZED) {
throw std::system_error(make_error_code(CryptoNote::error::ALREADY_INITIALIZED));
}
throwIfStopped();
m_viewPublicKey = viewPublicKey;
m_viewSecretKey = viewSecretKey;
m_password = password;
m_blockchainSynchronizer.addObserver(this);
m_state = WalletState::INITIALIZED;
}
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void WalletGreen::save(std::ostream& destination, bool saveDetails, bool saveCache) {
throwIfNotInitialized();
throwIfStopped();
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.stop();
}
unsafeSave(destination, saveDetails, saveCache);
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.start();
}
}
void WalletGreen::unsafeSave(std::ostream& destination, bool saveDetails, bool saveCache) {
WalletSerializer s(
*this,
m_viewPublicKey,
m_viewSecretKey,
m_actualBalance,
m_pendingBalance,
m_walletsContainer,
m_synchronizer,
m_spentOutputs,
m_unlockTransactionsJob,
m_change,
m_transactions,
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m_transfers,
m_transactionSoftLockTime
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);
StdOutputStream output(destination);
s.save(m_password, output, saveDetails, saveCache);
}
void WalletGreen::load(std::istream& source, const std::string& password) {
if (m_state != WalletState::NOT_INITIALIZED) {
throw std::system_error(make_error_code(error::WRONG_STATE));
}
throwIfStopped();
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.stop();
}
unsafeLoad(source, password);
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.start();
}
m_state = WalletState::INITIALIZED;
}
void WalletGreen::unsafeLoad(std::istream& source, const std::string& password) {
WalletSerializer s(
*this,
m_viewPublicKey,
m_viewSecretKey,
m_actualBalance,
m_pendingBalance,
m_walletsContainer,
m_synchronizer,
m_spentOutputs,
m_unlockTransactionsJob,
m_change,
m_transactions,
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m_transfers,
m_transactionSoftLockTime
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);
StdInputStream inputStream(source);
s.load(password, inputStream);
m_password = password;
m_blockchainSynchronizer.addObserver(this);
}
void WalletGreen::changePassword(const std::string& oldPassword, const std::string& newPassword) {
throwIfNotInitialized();
throwIfStopped();
if (m_password.compare(oldPassword)) {
throw std::system_error(make_error_code(error::WRONG_PASSWORD));
}
m_password = newPassword;
}
size_t WalletGreen::getAddressCount() const {
throwIfNotInitialized();
throwIfStopped();
return m_walletsContainer.get<RandomAccessIndex>().size();
}
std::string WalletGreen::getAddress(size_t index) const {
throwIfNotInitialized();
throwIfStopped();
if (index >= m_walletsContainer.get<RandomAccessIndex>().size()) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
const WalletRecord& wallet = m_walletsContainer.get<RandomAccessIndex>()[index];
return m_currency.accountAddressAsString({ wallet.spendPublicKey, m_viewPublicKey });
}
KeyPair WalletGreen::getAddressSpendKey(size_t index) const {
throwIfNotInitialized();
throwIfStopped();
if (index >= m_walletsContainer.get<RandomAccessIndex>().size()) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
const WalletRecord& wallet = m_walletsContainer.get<RandomAccessIndex>()[index];
return {wallet.spendPublicKey, wallet.spendSecretKey};
}
KeyPair WalletGreen::getViewKey() const {
throwIfNotInitialized();
throwIfStopped();
return {m_viewPublicKey, m_viewSecretKey};
}
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std::string WalletGreen::createAddress() {
KeyPair spendKey;
Crypto::generate_keys(spendKey.publicKey, spendKey.secretKey);
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uint64_t creationTimestamp = static_cast<uint64_t>(time(nullptr));
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return doCreateAddress(spendKey.publicKey, spendKey.secretKey, creationTimestamp);
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}
std::string WalletGreen::createAddress(const Crypto::SecretKey& spendSecretKey) {
Crypto::PublicKey spendPublicKey;
if (!Crypto::secret_key_to_public_key(spendSecretKey, spendPublicKey) ) {
throw std::system_error(make_error_code(CryptoNote::error::KEY_GENERATION_ERROR));
}
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return doCreateAddress(spendPublicKey, spendSecretKey, 0);
}
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std::string WalletGreen::createAddress(const Crypto::PublicKey& spendPublicKey) {
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return doCreateAddress(spendPublicKey, NULL_SECRET_KEY, 0);
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}
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std::string WalletGreen::doCreateAddress(const Crypto::PublicKey& spendPublicKey, const Crypto::SecretKey& spendSecretKey, uint64_t creationTimestamp) {
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throwIfNotInitialized();
throwIfStopped();
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.stop();
}
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try {
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addWallet(spendPublicKey, spendSecretKey, creationTimestamp);
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} catch (std::exception&) {
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.start();
}
throw;
}
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m_blockchainSynchronizer.start();
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return m_currency.accountAddressAsString({ spendPublicKey, m_viewPublicKey });
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}
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void WalletGreen::addWallet(const Crypto::PublicKey& spendPublicKey, const Crypto::SecretKey& spendSecretKey, uint64_t creationTimestamp) {
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auto& index = m_walletsContainer.get<KeysIndex>();
auto trackingMode = getTrackingMode();
if ((trackingMode == WalletTrackingMode::TRACKING && spendSecretKey != NULL_SECRET_KEY) ||
(trackingMode == WalletTrackingMode::NOT_TRACKING && spendSecretKey == NULL_SECRET_KEY)) {
throw std::system_error(make_error_code(error::BAD_ADDRESS));
}
auto insertIt = index.find(spendPublicKey);
if (insertIt != index.end()) {
throw std::system_error(make_error_code(error::ADDRESS_ALREADY_EXISTS));
}
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AccountSubscription sub;
sub.keys.address.viewPublicKey = m_viewPublicKey;
sub.keys.address.spendPublicKey = spendPublicKey;
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sub.keys.viewSecretKey = m_viewSecretKey;
sub.keys.spendSecretKey = spendSecretKey;
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sub.transactionSpendableAge = m_transactionSoftLockTime;
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sub.syncStart.height = 0;
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sub.syncStart.timestamp = std::max(creationTimestamp, ACCOUNT_CREATE_TIME_ACCURACY) - ACCOUNT_CREATE_TIME_ACCURACY;
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auto& trSubscription = m_synchronizer.addSubscription(sub);
ITransfersContainer* container = &trSubscription.getContainer();
WalletRecord wallet;
wallet.spendPublicKey = spendPublicKey;
wallet.spendSecretKey = spendSecretKey;
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wallet.container = container;
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wallet.creationTimestamp = static_cast<time_t>(creationTimestamp);
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trSubscription.addObserver(this);
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index.insert(insertIt, std::move(wallet));
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}
void WalletGreen::deleteAddress(const std::string& address) {
throwIfNotInitialized();
throwIfStopped();
CryptoNote::AccountPublicAddress pubAddr = parseAddress(address);
auto it = m_walletsContainer.get<KeysIndex>().find(pubAddr.spendPublicKey);
if (it == m_walletsContainer.get<KeysIndex>().end()) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
m_blockchainSynchronizer.stop();
m_actualBalance -= it->actualBalance;
m_pendingBalance -= it->pendingBalance;
m_synchronizer.removeSubscription(pubAddr);
m_spentOutputs.get<WalletIndex>().erase(&(*it));
m_walletsContainer.get<KeysIndex>().erase(it);
if (m_walletsContainer.get<RandomAccessIndex>().size() != 0) {
m_blockchainSynchronizer.start();
}
}
uint64_t WalletGreen::getActualBalance() const {
throwIfNotInitialized();
throwIfStopped();
return m_actualBalance;
}
uint64_t WalletGreen::getActualBalance(const std::string& address) const {
throwIfNotInitialized();
throwIfStopped();
const auto& wallet = getWalletRecord(address);
return wallet.actualBalance;
}
uint64_t WalletGreen::getPendingBalance() const {
throwIfNotInitialized();
throwIfStopped();
return m_pendingBalance;
}
uint64_t WalletGreen::getPendingBalance(const std::string& address) const {
throwIfNotInitialized();
throwIfStopped();
const auto& wallet = getWalletRecord(address);
return wallet.pendingBalance;
}
size_t WalletGreen::getTransactionCount() const {
throwIfNotInitialized();
throwIfStopped();
return m_transactions.get<RandomAccessIndex>().size();
}
WalletTransaction WalletGreen::getTransaction(size_t transactionIndex) const {
throwIfNotInitialized();
throwIfStopped();
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if (m_transactions.size() <= transactionIndex) {
throw std::system_error(make_error_code(CryptoNote::error::INDEX_OUT_OF_RANGE));
}
return m_transactions.get<RandomAccessIndex>()[transactionIndex];
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}
size_t WalletGreen::getTransactionTransferCount(size_t transactionIndex) const {
throwIfNotInitialized();
throwIfStopped();
auto bounds = getTransactionTransfers(transactionIndex);
return static_cast<size_t>(std::distance(bounds.first, bounds.second));
}
WalletTransfer WalletGreen::getTransactionTransfer(size_t transactionIndex, size_t transferIndex) const {
throwIfNotInitialized();
throwIfStopped();
auto bounds = getTransactionTransfers(transactionIndex);
if (transferIndex >= static_cast<size_t>(std::distance(bounds.first, bounds.second))) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
auto it = bounds.first;
std::advance(it, transferIndex);
return it->second;
}
std::pair<WalletTransfers::const_iterator, WalletTransfers::const_iterator> WalletGreen::getTransactionTransfers(
size_t transactionIndex) const {
auto val = std::make_pair(transactionIndex, WalletTransfer());
auto bounds = std::equal_range(m_transfers.begin(), m_transfers.end(), val, [] (const TransactionTransferPair& a, const TransactionTransferPair& b) {
return a.first < b.first;
});
return bounds;
}
size_t WalletGreen::transfer(const WalletTransfer& destination,
uint64_t fee,
uint64_t mixIn,
std::string const& extra,
uint64_t unlockTimestamp)
{
std::vector<WalletTransfer> destinations { destination };
return transfer(destinations, fee, mixIn, extra, unlockTimestamp);
}
size_t WalletGreen::transfer(
const std::vector<WalletTransfer>& destinations,
uint64_t fee,
uint64_t mixIn,
const std::string& extra,
uint64_t unlockTimestamp) {
System::EventLock lk(m_readyEvent);
throwIfNotInitialized();
throwIfStopped();
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throwIfTrackingMode();
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return doTransfer(pickWalletsWithMoney(), destinations, fee, mixIn, extra, unlockTimestamp);
}
size_t WalletGreen::transfer(
const std::string& sourceAddress,
const WalletTransfer& destination,
uint64_t fee,
uint64_t mixIn,
std::string const& extra,
uint64_t unlockTimestamp) {
std::vector<WalletTransfer> destinations { destination };
return transfer(sourceAddress, destinations, fee, mixIn, extra, unlockTimestamp);
}
size_t WalletGreen::transfer(
const std::string& sourceAddress,
const std::vector<WalletTransfer>& destinations,
uint64_t fee,
uint64_t mixIn,
const std::string& extra,
uint64_t unlockTimestamp) {
System::EventLock lk(m_readyEvent);
throwIfNotInitialized();
throwIfStopped();
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throwIfTrackingMode();
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WalletOuts wallet = pickWallet(sourceAddress);
std::vector<WalletOuts> wallets;
if (!wallet.outs.empty()) {
wallets.push_back(wallet);
}
return doTransfer(std::move(wallets), destinations, fee, mixIn, extra, unlockTimestamp);
}
size_t WalletGreen::doTransfer(std::vector<WalletOuts>&& wallets,
const std::vector<WalletTransfer>& destinations,
uint64_t fee,
uint64_t mixIn,
const std::string& extra,
uint64_t unlockTimestamp) {
if (destinations.empty()) {
throw std::system_error(make_error_code(error::ZERO_DESTINATION));
}
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if (fee < m_currency.minimumFee()) {
throw std::system_error(make_error_code(error::FEE_TOO_SMALL));
}
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validateAddresses(destinations, m_currency);
uint64_t neededMoney = countNeededMoney(destinations, fee);
std::vector<OutputToTransfer> selectedTransfers;
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uint64_t foundMoney = selectTransfers(neededMoney, mixIn == 0, m_currency.defaultDustThreshold(), std::move(wallets), selectedTransfers);
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if (foundMoney < neededMoney) {
throw std::system_error(make_error_code(error::WRONG_AMOUNT), "Not enough money");
}
typedef CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::outs_for_amount outs_for_amount;
std::vector<outs_for_amount> mixinResult;
if (mixIn != 0) {
requestMixinOuts(selectedTransfers, mixIn, mixinResult);
}
std::vector<InputInfo> keysInfo;
prepareInputs(selectedTransfers, mixinResult, mixIn, keysInfo);
WalletTransfer changeDestination;
changeDestination.address = m_currency.accountAddressAsString({ m_walletsContainer.get<RandomAccessIndex>()[0].spendPublicKey, m_viewPublicKey });
changeDestination.amount = foundMoney - neededMoney;
std::vector<ReceiverAmounts> decomposedOutputs;
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splitDestinations(destinations, changeDestination, m_currency.defaultDustThreshold(), m_currency, decomposedOutputs);
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std::unique_ptr<ITransaction> tx = makeTransaction(decomposedOutputs, keysInfo, extra, unlockTimestamp);
size_t txId = insertOutgoingTransaction(tx->getTransactionHash(), -static_cast<int64_t>(neededMoney), fee, tx->getExtra(), unlockTimestamp);
pushBackOutgoingTransfers(txId, destinations);
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m_fusionTxsCache.emplace(txId, false);
markOutputsSpent(tx->getTransactionHash(), selectedTransfers);
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try {
sendTransaction(tx.get());
} catch (std::exception&) {
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deleteSpentOutputs(tx->getTransactionHash());
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pushEvent(makeTransactionCreatedEvent(txId));
throw;
}
auto txIt = m_transactions.get<RandomAccessIndex>().begin();
std::advance(txIt, txId);
m_transactions.get<RandomAccessIndex>().modify(txIt,
[] (WalletTransaction& tx) { tx.state = WalletTransactionState::SUCCEEDED; });
m_change[tx->getTransactionHash()] = changeDestination.amount;
updateUsedWalletsBalances(selectedTransfers);
pushEvent(makeTransactionCreatedEvent(txId));
return txId;
}
void WalletGreen::pushBackOutgoingTransfers(size_t txId, const std::vector<WalletTransfer> &destinations) {
for (const auto& dest: destinations) {
WalletTransfer d { dest.address, -dest.amount };
m_transfers.push_back(std::make_pair(txId, d));
}
}
size_t WalletGreen::insertOutgoingTransaction(const Hash& transactionHash, int64_t totalAmount, uint64_t fee, const BinaryArray& extra, uint64_t unlockTimestamp) {
WalletTransaction insertTx;
insertTx.state = WalletTransactionState::FAILED;
insertTx.creationTime = static_cast<uint64_t>(time(nullptr));
insertTx.unlockTime = unlockTimestamp;
insertTx.blockHeight = CryptoNote::WALLET_UNCONFIRMED_TRANSACTION_HEIGHT;
insertTx.extra.assign(reinterpret_cast<const char*>(extra.data()), extra.size());
insertTx.fee = fee;
insertTx.hash = transactionHash;
insertTx.totalAmount = totalAmount;
insertTx.timestamp = 0; //0 until included in a block
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insertTx.isBase = false;
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size_t txId = m_transactions.get<RandomAccessIndex>().size();
m_transactions.get<RandomAccessIndex>().push_back(std::move(insertTx));
return txId;
}
bool WalletGreen::transactionExists(const Hash& hash) {
auto& hashIndex = m_transactions.get<TransactionIndex>();
auto it = hashIndex.find(hash);
return it != hashIndex.end();
}
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bool WalletGreen::updateWalletTransactionInfo(const Hash& hash, const CryptoNote::TransactionInformation& info) {
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auto& hashIndex = m_transactions.get<TransactionIndex>();
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bool updated = false;
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auto it = hashIndex.find(hash);
if (it != hashIndex.end()) {
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bool r = hashIndex.modify(it, [&info, &updated] (WalletTransaction& transaction) {
if (transaction.blockHeight != info.blockHeight) {
transaction.blockHeight = info.blockHeight;
updated = true;
}
if (transaction.timestamp != info.timestamp) {
transaction.timestamp = info.timestamp;
updated = true;
}
if (transaction.state != WalletTransactionState::SUCCEEDED) {
//transaction may be deleted first then added again
transaction.state = WalletTransactionState::SUCCEEDED;
updated = true;
}
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// Fix LegacyWallet error. Some old versions didn't fill extra field
if (transaction.extra.empty() && !info.extra.empty()) {
transaction.extra = Common::asString(info.extra);
updated = true;
}
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bool isBase = info.totalAmountIn == 0;
if (transaction.isBase != isBase) {
transaction.isBase = isBase;
updated = true;
}
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});
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assert(r);
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return updated;
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}
throw std::system_error(make_error_code(std::errc::invalid_argument));
}
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size_t WalletGreen::insertBlockchainTransaction(const TransactionInformation& info, int64_t txBalance) {
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auto& index = m_transactions.get<RandomAccessIndex>();
WalletTransaction tx;
tx.state = WalletTransactionState::SUCCEEDED;
tx.timestamp = info.timestamp;
tx.blockHeight = info.blockHeight;
tx.hash = info.transactionHash;
tx.fee = info.totalAmountIn - info.totalAmountOut;
tx.unlockTime = info.unlockTime;
tx.extra.assign(reinterpret_cast<const char*>(info.extra.data()), info.extra.size());
tx.totalAmount = txBalance;
tx.creationTime = info.timestamp;
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tx.isBase = info.totalAmountIn == 0;
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index.push_back(std::move(tx));
return index.size() - 1;
}
void WalletGreen::insertIncomingTransfer(size_t txId, const std::string& address, int64_t amount) {
auto it = std::upper_bound(m_transfers.begin(), m_transfers.end(), txId, [] (size_t val, const TransactionTransferPair& a) {
return val < a.first;
});
WalletTransfer tr { address, amount };
m_transfers.insert(it, std::make_pair(txId, std::move(tr)));
}
std::unique_ptr<CryptoNote::ITransaction> WalletGreen::makeTransaction(const std::vector<ReceiverAmounts>& decomposedOutputs,
std::vector<InputInfo>& keysInfo, const std::string& extra, uint64_t unlockTimestamp) {
std::unique_ptr<ITransaction> tx = createTransaction();
for (const auto& output: decomposedOutputs) {
for (auto amount: output.amounts) {
tx->addOutput(amount, output.receiver);
}
}
tx->setUnlockTime(unlockTimestamp);
tx->appendExtra(Common::asBinaryArray(extra));
for (auto& input: keysInfo) {
tx->addInput(makeAccountKeys(*input.walletRecord), input.keyInfo, input.ephKeys);
}
size_t i = 0;
for(auto& input: keysInfo) {
tx->signInputKey(i++, input.keyInfo, input.ephKeys);
}
return tx;
}
void WalletGreen::sendTransaction(ITransaction* tx) {
System::Event completion(m_dispatcher);
std::error_code ec;
CryptoNote::Transaction oldTxFormat;
const auto& ba = tx->getTransactionData();
if (ba.size() > m_upperTransactionSizeLimit) {
throw std::system_error(make_error_code(error::TRANSACTION_SIZE_TOO_BIG));
}
if (!fromBinaryArray(oldTxFormat, ba)) {
throw std::system_error(make_error_code(error::INTERNAL_WALLET_ERROR));
}
throwIfStopped();
m_node.relayTransaction(oldTxFormat, [&ec, &completion, this] (std::error_code error) {
ec = error;
this->m_dispatcher.remoteSpawn(std::bind(asyncRequestCompletion, std::ref(completion)));
});
completion.wait();
if (ec) {
throw std::system_error(ec);
}
}
AccountKeys WalletGreen::makeAccountKeys(const WalletRecord& wallet) const {
AccountKeys keys;
keys.address.spendPublicKey = wallet.spendPublicKey;
keys.address.viewPublicKey = m_viewPublicKey;
keys.spendSecretKey = wallet.spendSecretKey;
keys.viewSecretKey = m_viewSecretKey;
return keys;
}
void WalletGreen::requestMixinOuts(
const std::vector<OutputToTransfer>& selectedTransfers,
uint64_t mixIn,
std::vector<CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::outs_for_amount>& mixinResult) {
std::vector<uint64_t> amounts;
for (const auto& out: selectedTransfers) {
amounts.push_back(out.out.amount);
}
System::Event requestFinished(m_dispatcher);
std::error_code mixinError;
throwIfStopped();
m_node.getRandomOutsByAmounts(std::move(amounts), mixIn, mixinResult, [&requestFinished, &mixinError, this] (std::error_code ec) {
mixinError = ec;
this->m_dispatcher.remoteSpawn(std::bind(asyncRequestCompletion, std::ref(requestFinished)));
});
requestFinished.wait();
checkIfEnoughMixins(mixinResult, mixIn);
if (mixinError) {
throw std::system_error(mixinError);
}
}
uint64_t WalletGreen::selectTransfers(
uint64_t neededMoney,
bool dust,
uint64_t dustThreshold,
std::vector<WalletOuts>&& wallets,
std::vector<OutputToTransfer>& selectedTransfers) {
uint64_t foundMoney = 0;
std::vector<WalletOuts> walletOuts = wallets;
std::default_random_engine randomGenerator(Crypto::rand<std::default_random_engine::result_type>());
while (foundMoney < neededMoney && !walletOuts.empty()) {
std::uniform_int_distribution<size_t> walletsDistribution(0, walletOuts.size() - 1);
size_t walletIndex = walletsDistribution(randomGenerator);
std::vector<TransactionOutputInformation>& addressOuts = walletOuts[walletIndex].outs;
assert(addressOuts.size() > 0);
std::uniform_int_distribution<size_t> outDistribution(0, addressOuts.size() - 1);
size_t outIndex = outDistribution(randomGenerator);
TransactionOutputInformation out = addressOuts[outIndex];
if (!isOutputUsed(out) && (out.amount > dustThreshold || dust)) {
if (out.amount <= dustThreshold) {
dust = false;
}
foundMoney += out.amount;
selectedTransfers.push_back( { std::move(out), walletOuts[walletIndex].wallet } );
}
addressOuts.erase(addressOuts.begin() + outIndex);
if (addressOuts.empty()) {
walletOuts.erase(walletOuts.begin() + walletIndex);
}
}
if (!dust) {
return foundMoney;
}
for (const auto& addressOuts : walletOuts) {
auto it = std::find_if(addressOuts.outs.begin(), addressOuts.outs.end(),
[dustThreshold, this] (const TransactionOutputInformation& out) {
return out.amount <= dustThreshold && (!this->isOutputUsed(out));
}
);
if (it != addressOuts.outs.end()) {
foundMoney += it->amount;
selectedTransfers.push_back({ *it, addressOuts.wallet });
break;
}
}
return foundMoney;
};
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std::vector<WalletGreen::WalletOuts> WalletGreen::pickWalletsWithMoney() const {
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auto& walletsIndex = m_walletsContainer.get<RandomAccessIndex>();
std::vector<WalletOuts> walletOuts;
for (const auto& wallet: walletsIndex) {
if (wallet.actualBalance == 0) {
continue;
}
ITransfersContainer* container = wallet.container;
WalletOuts outs;
container->getOutputs(outs.outs, ITransfersContainer::IncludeKeyUnlocked);
outs.wallet = const_cast<WalletRecord *>(&wallet);
walletOuts.push_back(std::move(outs));
};
return walletOuts;
}
WalletGreen::WalletOuts WalletGreen::pickWallet(const std::string& address) {
const auto& wallet = getWalletRecord(address);
ITransfersContainer* container = wallet.container;
WalletOuts outs;
container->getOutputs(outs.outs, ITransfersContainer::IncludeKeyUnlocked);
outs.wallet = const_cast<WalletRecord *>(&wallet);
return outs;
}
void WalletGreen::splitDestinations(const std::vector<CryptoNote::WalletTransfer>& destinations,
const CryptoNote::WalletTransfer& changeDestination,
uint64_t dustThreshold,
const CryptoNote::Currency& currency,
std::vector<ReceiverAmounts>& decomposedOutputs) {
for (const auto& destination: destinations) {
ReceiverAmounts receiverAmounts;
parseAddressString(destination.address, currency, receiverAmounts.receiver);
decomposeAmount(destination.amount, dustThreshold, receiverAmounts.amounts);
decomposedOutputs.push_back(std::move(receiverAmounts));
}
ReceiverAmounts changeAmounts;
parseAddressString(changeDestination.address, currency, changeAmounts.receiver);
decomposeAmount(changeDestination.amount, dustThreshold, changeAmounts.amounts);
decomposedOutputs.push_back(std::move(changeAmounts));
}
void WalletGreen::prepareInputs(
const std::vector<OutputToTransfer>& selectedTransfers,
std::vector<CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::outs_for_amount>& mixinResult,
uint64_t mixIn,
std::vector<InputInfo>& keysInfo) {
typedef CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::out_entry out_entry;
size_t i = 0;
for (const auto& input: selectedTransfers) {
TransactionTypes::InputKeyInfo keyInfo;
keyInfo.amount = input.out.amount;
if(mixinResult.size()) {
std::sort(mixinResult[i].outs.begin(), mixinResult[i].outs.end(),
[] (const out_entry& a, const out_entry& b) { return a.global_amount_index < b.global_amount_index; });
for (auto& fakeOut: mixinResult[i].outs) {
if (input.out.globalOutputIndex == fakeOut.global_amount_index) {
continue;
}
TransactionTypes::GlobalOutput globalOutput;
globalOutput.outputIndex = static_cast<uint32_t>(fakeOut.global_amount_index);
globalOutput.targetKey = reinterpret_cast<PublicKey&>(fakeOut.out_key);
keyInfo.outputs.push_back(std::move(globalOutput));
if(keyInfo.outputs.size() >= mixIn)
break;
}
}
//paste real transaction to the random index
auto insertIn = std::find_if(keyInfo.outputs.begin(), keyInfo.outputs.end(), [&](const TransactionTypes::GlobalOutput& a) {
return a.outputIndex >= input.out.globalOutputIndex;
});
TransactionTypes::GlobalOutput realOutput;
realOutput.outputIndex = input.out.globalOutputIndex;
realOutput.targetKey = reinterpret_cast<const PublicKey&>(input.out.outputKey);
auto insertedIn = keyInfo.outputs.insert(insertIn, realOutput);
keyInfo.realOutput.transactionPublicKey = reinterpret_cast<const PublicKey&>(input.out.transactionPublicKey);
keyInfo.realOutput.transactionIndex = static_cast<size_t>(insertedIn - keyInfo.outputs.begin());
keyInfo.realOutput.outputInTransaction = input.out.outputInTransaction;
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//Important! outputs in selectedTransfers and in keysInfo must have the same order!
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InputInfo inputInfo;
inputInfo.keyInfo = std::move(keyInfo);
inputInfo.walletRecord = input.wallet;
keysInfo.push_back(std::move(inputInfo));
++i;
}
}
void WalletGreen::start() {
m_stopped = false;
}
void WalletGreen::stop() {
m_stopped = true;
m_eventOccured.set();
}
WalletEvent WalletGreen::getEvent() {
throwIfNotInitialized();
throwIfStopped();
while(m_events.empty()) {
m_eventOccured.wait();
m_eventOccured.clear();
throwIfStopped();
}
WalletEvent event = std::move(m_events.front());
m_events.pop();
return event;
}
void WalletGreen::throwIfNotInitialized() const {
if (m_state != WalletState::INITIALIZED) {
throw std::system_error(make_error_code(CryptoNote::error::NOT_INITIALIZED));
}
}
void WalletGreen::onError(ITransfersSubscription* object, uint32_t height, std::error_code ec) {
}
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void WalletGreen::synchronizationProgressUpdated(uint32_t processedBlockCount, uint32_t totalBlockCount) {
m_dispatcher.remoteSpawn( [processedBlockCount, totalBlockCount, this] () { onSynchronizationProgressUpdated(processedBlockCount, totalBlockCount); } );
}
void WalletGreen::synchronizationCompleted(std::error_code result) {
m_dispatcher.remoteSpawn([this] () { onSynchronizationCompleted(); } );
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}
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void WalletGreen::onSynchronizationProgressUpdated(uint32_t processedBlockCount, uint32_t totalBlockCount) {
assert(processedBlockCount > 0);
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System::EventLock lk(m_readyEvent);
if (m_state == WalletState::NOT_INITIALIZED) {
return;
}
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pushEvent(makeSyncProgressUpdatedEvent(processedBlockCount, totalBlockCount));
uint32_t currentHeight = processedBlockCount - 1;
unlockBalances(currentHeight);
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}
void WalletGreen::onSynchronizationCompleted() {
System::EventLock lk(m_readyEvent);
if (m_state == WalletState::NOT_INITIALIZED) {
return;
}
pushEvent(makeSyncCompletedEvent());
}
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void WalletGreen::unlockBalances(uint32_t height) {
auto& index = m_unlockTransactionsJob.get<BlockHeightIndex>();
auto upper = index.upper_bound(height);
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if (index.begin() != upper) {
for (auto it = index.begin(); it != upper; ++it) {
updateBalance(it->container);
}
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index.erase(index.begin(), upper);
pushEvent(makeMoneyUnlockedEvent());
}
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}
void WalletGreen::onTransactionUpdated(ITransfersSubscription* object, const Hash& transactionHash) {
m_dispatcher.remoteSpawn([object, transactionHash, this] () { this->transactionUpdated(object, transactionHash); } );
}
void WalletGreen::transactionUpdated(ITransfersSubscription* object, const Hash& transactionHash) {
System::EventLock lk(m_readyEvent);
if (m_state == WalletState::NOT_INITIALIZED) {
return;
}
CryptoNote::ITransfersContainer* container = &object->getContainer();
deleteSpentOutputs(transactionHash);
CryptoNote::TransactionInformation info;
int64_t txBalance;
bool found = container->getTransactionInformation(transactionHash, info, txBalance);
assert(found);
if (transactionExists(info.transactionHash)) {
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bool updated = updateWalletTransactionInfo(info.transactionHash, info);
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auto id = getTransactionId(info.transactionHash);
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if (updated) {
pushEvent(makeTransactionUpdatedEvent(id));
}
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} else {
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auto id = insertBlockchainTransaction(info, txBalance);
if (txBalance > 0) {
AccountPublicAddress walletAddress{ getWalletRecord(container).spendPublicKey, m_viewPublicKey };
insertIncomingTransfer(id, m_currency.accountAddressAsString(walletAddress), txBalance);
}
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m_fusionTxsCache.emplace(id, isFusionTransaction(m_transactions.get<RandomAccessIndex>()[id]));
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pushEvent(makeTransactionCreatedEvent(id));
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}
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m_change.erase(transactionHash);
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if (info.blockHeight != CryptoNote::WALLET_UNCONFIRMED_TRANSACTION_HEIGHT) {
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uint32_t unlockHeight = std::max(info.blockHeight + m_transactionSoftLockTime, static_cast<uint32_t>(info.unlockTime));
insertUnlockTransactionJob(transactionHash, unlockHeight, container);
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}
updateBalance(container);
}
void WalletGreen::pushEvent(const WalletEvent& event) {
m_events.push(event);
m_eventOccured.set();
}
size_t WalletGreen::getTransactionId(const Hash& transactionHash) const {
auto it = m_transactions.get<TransactionIndex>().find(transactionHash);
if (it == m_transactions.get<TransactionIndex>().end()) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
auto rndIt = m_transactions.project<RandomAccessIndex>(it);
auto txId = std::distance(m_transactions.get<RandomAccessIndex>().begin(), rndIt);
return txId;
}
void WalletGreen::onTransactionDeleted(ITransfersSubscription* object, const Hash& transactionHash) {
m_dispatcher.remoteSpawn([object, transactionHash, this] () {
this->transactionDeleted(object, transactionHash); });
}
void WalletGreen::transactionDeleted(ITransfersSubscription* object, const Hash& transactionHash) {
System::EventLock lk(m_readyEvent);
if (m_state == WalletState::NOT_INITIALIZED) {
return;
}
auto it = m_transactions.get<TransactionIndex>().find(transactionHash);
if (it == m_transactions.get<TransactionIndex>().end()) {
return;
}
CryptoNote::ITransfersContainer* container = &object->getContainer();
deleteUnlockTransactionJob(transactionHash);
m_change.erase(transactionHash);
deleteSpentOutputs(transactionHash);
m_transactions.get<TransactionIndex>().modify(it, [] (CryptoNote::WalletTransaction& tx) {
tx.state = WalletTransactionState::CANCELLED;
tx.blockHeight = WALLET_UNCONFIRMED_TRANSACTION_HEIGHT;
});
auto rndIt = m_transactions.project<RandomAccessIndex>(it);
auto id = std::distance(m_transactions.get<RandomAccessIndex>().begin(), rndIt);
updateBalance(container);
pushEvent(makeTransactionUpdatedEvent(id));
}
void WalletGreen::insertUnlockTransactionJob(const Hash& transactionHash, uint32_t blockHeight, CryptoNote::ITransfersContainer* container) {
auto& index = m_unlockTransactionsJob.get<BlockHeightIndex>();
index.insert( { blockHeight, container, transactionHash } );
}
void WalletGreen::deleteUnlockTransactionJob(const Hash& transactionHash) {
auto& index = m_unlockTransactionsJob.get<TransactionHashIndex>();
index.erase(transactionHash);
}
void WalletGreen::updateBalance(CryptoNote::ITransfersContainer* container) {
auto it = m_walletsContainer.get<TransfersContainerIndex>().find(container);
if (it == m_walletsContainer.get<TransfersContainerIndex>().end()) {
return;
}
uint64_t actual = container->balance(ITransfersContainer::IncludeAllUnlocked);
uint64_t pending = container->balance(ITransfersContainer::IncludeAllLocked);
uint64_t unconfirmedBalance = countSpentBalance(&(*it));
actual -= unconfirmedBalance;
//xxx: i don't like this special case. Decompose this function
if (container == m_walletsContainer.get<RandomAccessIndex>()[0].container) {
uint64_t change = 0;
std::for_each(m_change.begin(), m_change.end(), [&change] (const TransactionChanges::value_type& item) { change += item.second; });
pending += change;
}
if (it->actualBalance < actual) {
m_actualBalance += actual - it->actualBalance;
} else {
m_actualBalance -= it->actualBalance - actual;
}
if (it->pendingBalance < pending) {
m_pendingBalance += pending - it->pendingBalance;
} else {
m_pendingBalance -= it->pendingBalance - pending;
}
m_walletsContainer.get<TransfersContainerIndex>().modify(it, [actual, pending] (WalletRecord& wallet) {
wallet.actualBalance = actual;
wallet.pendingBalance = pending;
});
}
const WalletRecord& WalletGreen::getWalletRecord(const PublicKey& key) const {
auto it = m_walletsContainer.get<KeysIndex>().find(key);
if (it == m_walletsContainer.get<KeysIndex>().end()) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
return *it;
}
const WalletRecord& WalletGreen::getWalletRecord(const std::string& address) const {
CryptoNote::AccountPublicAddress pubAddr = parseAddress(address);
return getWalletRecord(pubAddr.spendPublicKey);
}
const WalletRecord& WalletGreen::getWalletRecord(CryptoNote::ITransfersContainer* container) const {
auto it = m_walletsContainer.get<TransfersContainerIndex>().find(container);
if (it == m_walletsContainer.get<TransfersContainerIndex>().end()) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
return *it;
}
CryptoNote::AccountPublicAddress WalletGreen::parseAddress(const std::string& address) const {
CryptoNote::AccountPublicAddress pubAddr;
if (!m_currency.parseAccountAddressString(address, pubAddr)) {
throw std::system_error(std::make_error_code(std::errc::invalid_argument));
}
return pubAddr;
}
bool WalletGreen::isOutputUsed(const TransactionOutputInformation& out) const {
return m_spentOutputs.get<TransactionOutputIndex>().find(boost::make_tuple(out.transactionHash, out.outputInTransaction))
!=
m_spentOutputs.get<TransactionOutputIndex>().end();
}
void WalletGreen::markOutputsSpent(const Hash& transactionHash,const std::vector<OutputToTransfer>& selectedTransfers) {
auto& index = m_spentOutputs.get<TransactionOutputIndex>();
for (const auto& output: selectedTransfers) {
index.insert( {output.out.amount, output.out.transactionHash, output.out.outputInTransaction, output.wallet, transactionHash} );
}
}
void WalletGreen::deleteSpentOutputs(const Hash& transactionHash) {
auto& index = m_spentOutputs.get<TransactionIndex>();
index.erase(transactionHash);
}
uint64_t WalletGreen::countSpentBalance(const WalletRecord* wallet) {
uint64_t amount = 0;
auto bounds = m_spentOutputs.get<WalletIndex>().equal_range(wallet);
for (auto it = bounds.first; it != bounds.second; ++it) {
amount += it->amount;
}
return amount;
}
void WalletGreen::updateUsedWalletsBalances(const std::vector<OutputToTransfer>& selectedTransfers) {
std::set<WalletRecord *> wallets;
// wallet #0 recieves change, so we have to update it after transfer
wallets.insert(const_cast<WalletRecord* >(&m_walletsContainer.get<RandomAccessIndex>()[0]));
std::for_each(selectedTransfers.begin(), selectedTransfers.end(), [&wallets] (const OutputToTransfer& output) { wallets.insert(output.wallet); } );
std::for_each(wallets.begin(), wallets.end(), [this] (WalletRecord* wallet) {
this->updateBalance(wallet->container);
});
}
void WalletGreen::throwIfStopped() const {
if (m_stopped) {
throw std::system_error(make_error_code(error::OPERATION_CANCELLED));
}
}
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void WalletGreen::throwIfTrackingMode() const {
if (getTrackingMode() == WalletTrackingMode::TRACKING) {
throw std::system_error(make_error_code(error::TRACKING_MODE));
}
}
WalletGreen::WalletTrackingMode WalletGreen::getTrackingMode() const {
if (m_walletsContainer.get<RandomAccessIndex>().empty()) {
return WalletTrackingMode::NO_ADDRESSES;
}
return m_walletsContainer.get<RandomAccessIndex>().begin()->spendSecretKey == NULL_SECRET_KEY ?
WalletTrackingMode::TRACKING : WalletTrackingMode::NOT_TRACKING;
}
size_t WalletGreen::createFusionTransaction(uint64_t threshold, uint64_t mixin) {
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System::EventLock lk(m_readyEvent);
throwIfNotInitialized();
throwIfStopped();
//TODO: check if wallet is not in tracking mode
const size_t MAX_FUSION_OUTPUT_COUNT = 4;
if (threshold <= m_currency.defaultDustThreshold()) {
throw std::runtime_error("Threshold must be greater than " + std::to_string(m_currency.defaultDustThreshold()));
}
if (m_walletsContainer.get<RandomAccessIndex>().size() == 0) {
throw std::runtime_error("You must have at least one address");
}
size_t estimatedFusionInputsCount = m_currency.getApproximateMaximumInputCount(m_currency.fusionTxMaxSize(), MAX_FUSION_OUTPUT_COUNT, mixin);
if (estimatedFusionInputsCount < m_currency.fusionTxMinInputCount()) {
throw std::system_error(make_error_code(error::MIXIN_COUNT_TOO_BIG));
}
std::vector<OutputToTransfer> fusionInputs = pickRandomFusionInputs(threshold, m_currency.fusionTxMinInputCount(), estimatedFusionInputsCount);
if (fusionInputs.size() < m_currency.fusionTxMinInputCount()) {
//nothing to optimize
return WALLET_INVALID_TRANSACTION_ID;
}
typedef CryptoNote::COMMAND_RPC_GET_RANDOM_OUTPUTS_FOR_AMOUNTS::outs_for_amount outs_for_amount;
std::vector<outs_for_amount> mixinResult;
if (mixin != 0) {
requestMixinOuts(fusionInputs, mixin, mixinResult);
}
std::vector<InputInfo> keysInfo;
prepareInputs(fusionInputs, mixinResult, mixin, keysInfo);
std::unique_ptr<ITransaction> fusionTransaction;
size_t transactionSize;
int round = 0;
uint64_t transactionAmount;
do {
if (round != 0) {
fusionInputs.pop_back();
keysInfo.pop_back();
}
uint64_t inputsAmount = std::accumulate(fusionInputs.begin(), fusionInputs.end(), static_cast<uint64_t>(0), [] (uint64_t amount, const OutputToTransfer& input) {
return amount + input.out.amount;
});
transactionAmount = inputsAmount;
ReceiverAmounts decomposedOutputs = decomposeFusionOutputs(inputsAmount);
assert(decomposedOutputs.amounts.size() <= MAX_FUSION_OUTPUT_COUNT);
fusionTransaction = makeTransaction(std::vector<ReceiverAmounts>{decomposedOutputs}, keysInfo, "", 0);
transactionSize = getTransactionSize(*fusionTransaction);
++round;
} while (transactionSize > m_currency.fusionTxMaxSize() && fusionInputs.size() >= m_currency.fusionTxMinInputCount());
if (fusionInputs.size() < m_currency.fusionTxMinInputCount()) {
throw std::runtime_error("Unable to create fusion transaction");
}
size_t transactionId = insertOutgoingTransaction(fusionTransaction->getTransactionHash(), 0, 0, fusionTransaction->getExtra(), 0);
m_fusionTxsCache.emplace(transactionId, true);
WalletTransfer destination = {m_currency.accountAddressAsString({m_walletsContainer.get<RandomAccessIndex>().begin()->spendPublicKey,
m_viewPublicKey }), 0};
pushBackOutgoingTransfers(transactionId, std::vector<WalletTransfer> {destination});
markOutputsSpent(fusionTransaction->getTransactionHash(), fusionInputs);
try {
sendTransaction(fusionTransaction.get());
} catch (std::exception&) {
deleteSpentOutputs(fusionTransaction->getTransactionHash());
pushEvent(makeTransactionCreatedEvent(transactionId));
throw;
}
auto txIt = m_transactions.get<RandomAccessIndex>().begin();
std::advance(txIt, transactionId);
m_transactions.get<RandomAccessIndex>().modify(txIt,
[] (WalletTransaction& tx) { tx.state = WalletTransactionState::SUCCEEDED; });
m_change[fusionTransaction->getTransactionHash()] = transactionAmount;
updateUsedWalletsBalances(fusionInputs);
pushEvent(makeTransactionCreatedEvent(transactionId));
return transactionId;
}
WalletGreen::ReceiverAmounts WalletGreen::decomposeFusionOutputs(uint64_t inputsAmount) {
assert(m_walletsContainer.get<RandomAccessIndex>().size() > 0);
WalletGreen::ReceiverAmounts outputs;
outputs.receiver = {m_walletsContainer.get<RandomAccessIndex>().begin()->spendPublicKey, m_viewPublicKey};
decomposeAmount(inputsAmount, 0, outputs.amounts);
std::sort(outputs.amounts.begin(), outputs.amounts.end());
return outputs;
}
bool WalletGreen::isFusionTransaction(size_t transactionId) const {
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throwIfNotInitialized();
throwIfStopped();
if (m_transactions.size() <= transactionId) {
throw std::system_error(make_error_code(CryptoNote::error::INDEX_OUT_OF_RANGE));
}
auto isFusionIter = m_fusionTxsCache.find(transactionId);
if (isFusionIter != m_fusionTxsCache.end()) {
return isFusionIter->second;
}
bool result = isFusionTransaction(m_transactions.get<RandomAccessIndex>()[transactionId]);
m_fusionTxsCache.emplace(transactionId, result);
return result;
}
bool WalletGreen::isFusionTransaction(const WalletTransaction& walletTx) const {
if (walletTx.fee != 0) {
return false;
}
uint64_t inputsSum = 0;
uint64_t outputsSum = 0;
std::vector<uint64_t> outputsAmounts;
std::vector<uint64_t> inputsAmounts;
TransactionInformation txInfo;
bool gotTx = false;
const auto& walletsIndex = m_walletsContainer.get<RandomAccessIndex>();
for (const WalletRecord& wallet : walletsIndex) {
for (const TransactionOutputInformation& output : wallet.container->getTransactionOutputs(walletTx.hash, ITransfersContainer::IncludeTypeKey | ITransfersContainer::IncludeStateAll)) {
if (outputsAmounts.size() <= output.outputInTransaction) {
outputsAmounts.resize(output.outputInTransaction + 1, 0);
}
assert(output.amount != 0);
assert(outputsAmounts[output.outputInTransaction] == 0);
outputsAmounts[output.outputInTransaction] = output.amount;
outputsSum += output.amount;
}
for (const TransactionOutputInformation& input : wallet.container->getTransactionInputs(walletTx.hash, ITransfersContainer::IncludeTypeKey)) {
inputsSum += input.amount;
inputsAmounts.push_back(input.amount);
}
if (!gotTx) {
int64_t ignore;
gotTx = wallet.container->getTransactionInformation(walletTx.hash, txInfo, ignore);
}
}
if (!gotTx) {
return false;
}
if (outputsSum != inputsSum || outputsSum != txInfo.totalAmountOut || inputsSum != txInfo.totalAmountIn) {
return false;
} else {
return m_currency.isFusionTransaction(inputsAmounts, outputsAmounts, 0); //size = 0 here because can't get real size of tx in wallet.
}
}
IFusionManager::EstimateResult WalletGreen::estimate(uint64_t threshold) const {
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throwIfNotInitialized();
throwIfStopped();
IFusionManager::EstimateResult result{0, 0};
auto walletOuts = pickWalletsWithMoney();
std::array<size_t, std::numeric_limits<uint64_t>::digits10 + 1> bucketSizes;
bucketSizes.fill(0);
for (size_t walletIndex = 0; walletIndex < walletOuts.size(); ++walletIndex) {
for (auto& out : walletOuts[walletIndex].outs) {
uint8_t powerOfTen = 0;
if (m_currency.isAmountApplicableInFusionTransactionInput(out.amount, threshold, powerOfTen) && !isOutputUsed(out)) {
assert(powerOfTen < std::numeric_limits<uint64_t>::digits10 + 1);
bucketSizes[powerOfTen]++;
}
}
result.totalOutputCount += walletOuts[walletIndex].outs.size();
}
for (auto bucketSize : bucketSizes) {
if (bucketSize >= m_currency.fusionTxMinInputCount()) {
result.fusionReadyCount += bucketSize;
}
}
return result;
}
std::vector<WalletGreen::OutputToTransfer> WalletGreen::pickRandomFusionInputs(uint64_t threshold, size_t minInputCount, size_t maxInputCount) {
std::vector<WalletGreen::OutputToTransfer> allFusionReadyOuts;
auto walletOuts = pickWalletsWithMoney();
std::array<size_t, std::numeric_limits<uint64_t>::digits10 + 1> bucketSizes;
bucketSizes.fill(0);
for (size_t walletIndex = 0; walletIndex < walletOuts.size(); ++walletIndex) {
for (auto& out : walletOuts[walletIndex].outs) {
uint8_t powerOfTen = 0;
if (m_currency.isAmountApplicableInFusionTransactionInput(out.amount, threshold, powerOfTen) && !isOutputUsed(out)) {
allFusionReadyOuts.push_back({std::move(out), walletOuts[walletIndex].wallet});
assert(powerOfTen < std::numeric_limits<uint64_t>::digits10 + 1);
bucketSizes[powerOfTen]++;
}
}
}
//now, pick the bucket
std::vector<uint8_t> bucketNumbers(bucketSizes.size());
std::iota(bucketNumbers.begin(), bucketNumbers.end(), 0);
std::shuffle(bucketNumbers.begin(), bucketNumbers.end(), std::default_random_engine{Crypto::rand<std::default_random_engine::result_type>()});
size_t bucketNumberIndex = 0;
for (; bucketNumberIndex < bucketNumbers.size(); ++bucketNumberIndex) {
if (bucketSizes[bucketNumbers[bucketNumberIndex]] >= minInputCount) {
break;
}
}
if (bucketNumberIndex == bucketNumbers.size()) {
return {};
}
size_t selectedBucket = bucketNumbers[bucketNumberIndex];
assert(selectedBucket < std::numeric_limits<uint64_t>::digits10 + 1);
assert(bucketSizes[selectedBucket] >= minInputCount);
uint64_t lowerBound = 1;
for (size_t i = 0; i < selectedBucket; ++i) {
lowerBound *= 10;
}
uint64_t upperBound = selectedBucket == std::numeric_limits<uint64_t>::digits10 ? UINT64_MAX : lowerBound * 10;
std::vector<WalletGreen::OutputToTransfer> selectedOuts;
selectedOuts.reserve(bucketSizes[selectedBucket]);
for (size_t outIndex = 0; outIndex < allFusionReadyOuts.size(); ++outIndex) {
if (allFusionReadyOuts[outIndex].out.amount >= lowerBound && allFusionReadyOuts[outIndex].out.amount < upperBound) {
selectedOuts.push_back(std::move(allFusionReadyOuts[outIndex]));
}
}
assert(selectedOuts.size() >= minInputCount);
auto outputsSortingFunction = [](const OutputToTransfer& l, const OutputToTransfer& r) { return l.out.amount < r.out.amount; };
if (selectedOuts.size() <= maxInputCount) {
std::sort(selectedOuts.begin(), selectedOuts.end(), outputsSortingFunction);
return selectedOuts;
}
ShuffleGenerator<size_t, Crypto::random_engine<size_t>> generator(selectedOuts.size());
std::vector<WalletGreen::OutputToTransfer> trimmedSelectedOuts;
trimmedSelectedOuts.reserve(maxInputCount);
for (size_t i = 0; i < maxInputCount; ++i) {
trimmedSelectedOuts.push_back(std::move(selectedOuts[generator()]));
}
std::sort(trimmedSelectedOuts.begin(), trimmedSelectedOuts.end(), outputsSortingFunction);
return trimmedSelectedOuts;
}
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} //namespace CryptoNote