wowlet/src/libwalletqt/Wallet.cpp

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// SPDX-License-Identifier: BSD-3-Clause
// Copyright (c) 2014-2020, The Monero Project.
#include "Wallet.h"
#include "PendingTransaction.h"
#include "UnsignedTransaction.h"
#include "TransactionHistory.h"
#include "AddressBook.h"
#include "Subaddress.h"
#include "SubaddressAccount.h"
#include "Coins.h"
#include "model/TransactionHistoryModel.h"
#include "model/TransactionHistoryProxyModel.h"
#include "model/AddressBookModel.h"
#include "model/SubaddressModel.h"
#include "model/SubaddressAccountModel.h"
#include "model/CoinsModel.h"
#include "wallet/api/wallet2_api.h"
#include <QFile>
#include <QDir>
#include <QDebug>
#include <QUrl>
#include <QTimer>
#include <QtConcurrent/QtConcurrent>
#include <QList>
#include <QVector>
#include <QMutexLocker>
namespace {
static const int DAEMON_BLOCKCHAIN_HEIGHT_CACHE_TTL_SECONDS = 5;
static const int DAEMON_BLOCKCHAIN_TARGET_HEIGHT_CACHE_TTL_SECONDS = 30;
static const int WALLET_CONNECTION_STATUS_CACHE_TTL_SECONDS = 5;
static constexpr char ATTRIBUTE_SUBADDRESS_ACCOUNT[] ="gui.subaddress_account";
}
Wallet::Wallet(QObject * parent)
: Wallet(nullptr, parent)
{
}
QString Wallet::getSeed() const
{
return QString::fromStdString(m_walletImpl->seed());
}
QString Wallet::getSeedLanguage() const
{
return QString::fromStdString(m_walletImpl->getSeedLanguage());
}
void Wallet::setSeedLanguage(const QString &lang)
{
m_walletImpl->setSeedLanguage(lang.toStdString());
}
Wallet::Status Wallet::status() const
{
return static_cast<Status>(m_walletImpl->status());
}
NetworkType::Type Wallet::nettype() const
{
return static_cast<NetworkType::Type>(m_walletImpl->nettype());
}
void Wallet::updateConnectionStatusAsync()
{
m_scheduler.run([this] {
if (m_connectionStatus == Wallet::ConnectionStatus_Disconnected)
{
setConnectionStatus(ConnectionStatus_Connecting);
}
ConnectionStatus newStatus = static_cast<ConnectionStatus>(m_walletImpl->connected());
if (newStatus != m_connectionStatus || !m_initialized) {
m_initialized = true;
setConnectionStatus(newStatus);
}
// Release lock
m_connectionStatusRunning = false;
});
}
Wallet::ConnectionStatus Wallet::connected(bool forceCheck)
{
// cache connection status
if (forceCheck || !m_initialized || (m_connectionStatusTime.elapsed() / 1000 > m_connectionStatusTtl && !m_connectionStatusRunning) || m_connectionStatusTime.elapsed() > 30000) {
m_connectionStatusRunning = true;
m_connectionStatusTime.restart();
updateConnectionStatusAsync();
}
return m_connectionStatus;
}
bool Wallet::disconnected() const
{
return m_disconnected;
}
void Wallet::setConnectionStatus(ConnectionStatus value)
{
if (m_connectionStatus == value)
{
return;
}
m_connectionStatus = value;
emit connectionStatusChanged(m_connectionStatus);
bool disconnected = m_connectionStatus == Wallet::ConnectionStatus_Connecting ||
m_connectionStatus == Wallet::ConnectionStatus_Disconnected;
if (m_disconnected != disconnected)
{
m_disconnected = disconnected;
emit disconnectedChanged();
}
}
bool Wallet::synchronized() const
{
return m_walletImpl->synchronized();
}
QString Wallet::errorString() const
{
return QString::fromStdString(m_walletImpl->errorString());
}
bool Wallet::setPassword(const QString &password)
{
return m_walletImpl->setPassword(password.toStdString());
}
QString Wallet::address(quint32 accountIndex, quint32 addressIndex) const
{
return QString::fromStdString(m_walletImpl->address(accountIndex, addressIndex));
}
QString Wallet::path() const
{
return QDir::toNativeSeparators(QString::fromStdString(m_walletImpl->path()));
}
//void Wallet::storeAsync(const QVariant &callback, const QString &path /* = "" */)
//{
// const auto future = m_scheduler.run(
// [this, path] {
// QMutexLocker locker(&m_storeMutex);
// return QVariantList({m_walletImpl->store(path.toStdString())});
// },
// callback);
// if (!future.first)
// {
// QVariant(callback).call(QVariantList({false}));
// }
//}
void Wallet::store(const QString &path)
{
m_walletImpl->store(path.toStdString());
}
bool Wallet::init(const QString &daemonAddress, bool trustedDaemon, quint64 upperTransactionLimit, bool isRecovering, bool isRecoveringFromDevice, quint64 restoreHeight)
{
qDebug() << "init non async";
if (isRecovering){
qDebug() << "RESTORING";
m_walletImpl->setRecoveringFromSeed(true);
}
if (isRecoveringFromDevice){
qDebug() << "RESTORING FROM DEVICE";
m_walletImpl->setRecoveringFromDevice(true);
}
if (isRecovering || isRecoveringFromDevice) {
m_walletImpl->setRefreshFromBlockHeight(restoreHeight);
}
m_walletImpl->init(daemonAddress.toStdString(), upperTransactionLimit, m_daemonUsername.toStdString(), m_daemonPassword.toStdString());
setTrustedDaemon(trustedDaemon);
return true;
}
void Wallet::setDaemonLogin(const QString &daemonUsername, const QString &daemonPassword)
{
// store daemon login
m_daemonUsername = daemonUsername;
m_daemonPassword = daemonPassword;
}
void Wallet::initAsync(const QString &daemonAddress, bool trustedDaemon, quint64 upperTransactionLimit, bool isRecovering, bool isRecoveringFromDevice, quint64 restoreHeight)
{
qDebug() << "initAsync: " + daemonAddress;
const auto future = m_scheduler.run([this, daemonAddress, trustedDaemon, upperTransactionLimit, isRecovering, isRecoveringFromDevice, restoreHeight] {
bool success = init(daemonAddress, trustedDaemon, upperTransactionLimit, isRecovering, isRecoveringFromDevice, restoreHeight);
if (success)
{
emit walletCreationHeightChanged();
qDebug() << "init async finished - starting refresh";
connected(true);
m_walletImpl->startRefresh();
}
});
if (future.first)
{
setConnectionStatus(Wallet::ConnectionStatus_Connecting);
}
}
bool Wallet::isHwBacked() const
{
return m_walletImpl->getDeviceType() != Monero::Wallet::Device_Software;
}
bool Wallet::isLedger() const
{
return m_walletImpl->getDeviceType() == Monero::Wallet::Device_Ledger;
}
bool Wallet::isTrezor() const
{
return m_walletImpl->getDeviceType() == Monero::Wallet::Device_Trezor;
}
//! create a view only wallet
bool Wallet::createViewOnly(const QString &path, const QString &password) const
{
// Create path
QDir d = QFileInfo(path).absoluteDir();
d.mkpath(d.absolutePath());
return m_walletImpl->createWatchOnly(path.toStdString(),password.toStdString(),m_walletImpl->getSeedLanguage());
}
bool Wallet::connectToDaemon()
{
return m_walletImpl->connectToDaemon();
}
void Wallet::setTrustedDaemon(bool arg)
{
m_walletImpl->setTrustedDaemon(arg);
}
bool Wallet::viewOnly() const
{
return m_walletImpl->watchOnly();
}
quint64 Wallet::balance() const
{
return balance(m_currentSubaddressAccount);
}
quint64 Wallet::balance(quint32 accountIndex) const
{
return m_walletImpl->balance(accountIndex);
}
quint64 Wallet::balanceAll() const
{
return m_walletImpl->balanceAll();
}
quint64 Wallet::unlockedBalance() const
{
return unlockedBalance(m_currentSubaddressAccount);
}
quint64 Wallet::unlockedBalance(quint32 accountIndex) const
{
return m_walletImpl->unlockedBalance(accountIndex);
}
quint64 Wallet::unlockedBalanceAll() const
{
return m_walletImpl->unlockedBalanceAll();
}
quint32 Wallet::currentSubaddressAccount() const
{
return m_currentSubaddressAccount;
}
void Wallet::switchSubaddressAccount(quint32 accountIndex)
{
if (accountIndex < numSubaddressAccounts())
{
m_currentSubaddressAccount = accountIndex;
if (!setCacheAttribute(ATTRIBUTE_SUBADDRESS_ACCOUNT, QString::number(m_currentSubaddressAccount)))
{
qWarning() << "failed to set " << ATTRIBUTE_SUBADDRESS_ACCOUNT << " cache attribute";
}
m_subaddress->refresh(m_currentSubaddressAccount);
m_history->refresh(m_currentSubaddressAccount);
emit currentSubaddressAccountChanged();
}
}
void Wallet::addSubaddressAccount(const QString& label)
{
m_walletImpl->addSubaddressAccount(label.toStdString());
switchSubaddressAccount(numSubaddressAccounts() - 1);
}
quint32 Wallet::numSubaddressAccounts() const
{
return m_walletImpl->numSubaddressAccounts();
}
quint32 Wallet::numSubaddresses(quint32 accountIndex) const
{
return m_walletImpl->numSubaddresses(accountIndex);
}
void Wallet::addSubaddress(const QString& label)
{
m_walletImpl->addSubaddress(currentSubaddressAccount(), label.toStdString());
}
QString Wallet::getSubaddressLabel(quint32 accountIndex, quint32 addressIndex) const
{
return QString::fromStdString(m_walletImpl->getSubaddressLabel(accountIndex, addressIndex));
}
void Wallet::setSubaddressLabel(quint32 accountIndex, quint32 addressIndex, const QString &label)
{
m_walletImpl->setSubaddressLabel(accountIndex, addressIndex, label.toStdString());
emit currentSubaddressAccountChanged();
}
void Wallet::deviceShowAddressAsync(quint32 accountIndex, quint32 addressIndex, const QString &paymentId)
{
m_scheduler.run([this, accountIndex, addressIndex, paymentId] {
m_walletImpl->deviceShowAddress(accountIndex, addressIndex, paymentId.toStdString());
emit deviceShowAddressShowed();
});
}
void Wallet::refreshHeightAsync()
{
m_scheduler.run([this] {
quint64 daemonHeight;
QPair<bool, QFuture<void>> daemonHeightFuture = m_scheduler.run([this, &daemonHeight] {
daemonHeight = daemonBlockChainHeight();
});
if (!daemonHeightFuture.first)
{
return;
}
quint64 targetHeight;
QPair<bool, QFuture<void>> targetHeightFuture = m_scheduler.run([this, &targetHeight] {
targetHeight = daemonBlockChainTargetHeight();
});
if (!targetHeightFuture.first)
{
return;
}
quint64 walletHeight = blockChainHeight();
daemonHeightFuture.second.waitForFinished();
targetHeightFuture.second.waitForFinished();
emit heightRefreshed(walletHeight, daemonHeight, targetHeight);
});
}
quint64 Wallet::blockChainHeight() const
{
return m_walletImpl->blockChainHeight();
}
quint64 Wallet::daemonBlockChainHeight() const
{
// cache daemon blockchain height for some time (60 seconds by default)
if (m_daemonBlockChainHeight == 0
|| m_daemonBlockChainHeightTime.elapsed() / 1000 > m_daemonBlockChainHeightTtl) {
m_daemonBlockChainHeight = m_walletImpl->daemonBlockChainHeight();
m_daemonBlockChainHeightTime.restart();
}
return m_daemonBlockChainHeight;
}
quint64 Wallet::daemonBlockChainTargetHeight() const
{
if (m_daemonBlockChainTargetHeight <= 1
|| m_daemonBlockChainTargetHeightTime.elapsed() / 1000 > m_daemonBlockChainTargetHeightTtl) {
m_daemonBlockChainTargetHeight = m_walletImpl->daemonBlockChainTargetHeight();
// Target height is set to 0 if daemon is synced.
// Use current height from daemon when target height < current height
if (m_daemonBlockChainTargetHeight < m_daemonBlockChainHeight){
m_daemonBlockChainTargetHeight = m_daemonBlockChainHeight;
}
m_daemonBlockChainTargetHeightTime.restart();
}
return m_daemonBlockChainTargetHeight;
}
bool Wallet::exportKeyImages(const QString& path)
{
return m_walletImpl->exportKeyImages(path.toStdString());
}
bool Wallet::importKeyImages(const QString& path)
{
return m_walletImpl->importKeyImages(path.toStdString());
}
bool Wallet::refresh()
{
bool result = m_walletImpl->refresh();
m_history->refresh(currentSubaddressAccount());
m_subaddress->refresh(currentSubaddressAccount());
m_coins->refresh(currentSubaddressAccount());
m_subaddressAccount->getAll();
if (result)
emit updated();
return result;
}
void Wallet::refreshAsync()
{
qDebug() << "refresh async";
m_walletImpl->refreshAsync();
}
void Wallet::setAutoRefreshInterval(int seconds)
{
m_walletImpl->setAutoRefreshInterval(seconds);
}
int Wallet::autoRefreshInterval() const
{
return m_walletImpl->autoRefreshInterval();
}
void Wallet::startRefresh() const
{
m_walletImpl->startRefresh();
}
void Wallet::pauseRefresh() const
{
m_walletImpl->pauseRefresh();
}
PendingTransaction *Wallet::createTransaction(const QString &dst_addr, const QString &payment_id,
quint64 amount, quint32 mixin_count,
PendingTransaction::Priority priority)
{
std::set<uint32_t> subaddr_indices;
Monero::PendingTransaction * ptImpl = m_walletImpl->createTransaction(
dst_addr.toStdString(), payment_id.toStdString(), amount, mixin_count,
static_cast<Monero::PendingTransaction::Priority>(priority), currentSubaddressAccount(), subaddr_indices);
PendingTransaction * result = new PendingTransaction(ptImpl,0);
return result;
}
void Wallet::createTransactionAsync(const QString &dst_addr, const QString &payment_id,
quint64 amount, quint32 mixin_count,
PendingTransaction::Priority priority)
{
m_scheduler.run([this, dst_addr, payment_id, amount, mixin_count, priority] {
PendingTransaction *tx = createTransaction(dst_addr, payment_id, amount, mixin_count, priority);
emit transactionCreated(tx, dst_addr, payment_id, mixin_count);
});
}
PendingTransaction *Wallet::createTransactionAll(const QString &dst_addr, const QString &payment_id,
quint32 mixin_count, PendingTransaction::Priority priority)
{
std::set<uint32_t> subaddr_indices;
Monero::PendingTransaction * ptImpl = m_walletImpl->createTransaction(
dst_addr.toStdString(), payment_id.toStdString(), Monero::optional<uint64_t>(), mixin_count,
static_cast<Monero::PendingTransaction::Priority>(priority), currentSubaddressAccount(), subaddr_indices);
PendingTransaction * result = new PendingTransaction(ptImpl, this);
return result;
}
void Wallet::createTransactionAllAsync(const QString &dst_addr, const QString &payment_id,
quint32 mixin_count,
PendingTransaction::Priority priority)
{
m_scheduler.run([this, dst_addr, payment_id, mixin_count, priority] {
PendingTransaction *tx = createTransactionAll(dst_addr, payment_id, mixin_count, priority);
emit transactionCreated(tx, dst_addr, payment_id, mixin_count);
});
}
PendingTransaction *Wallet::createTransactionSingle(const QString &key_image, const QString &dst_addr, const size_t outputs,
PendingTransaction::Priority priority)
{
Monero::PendingTransaction * ptImpl = m_walletImpl->createTransactionSingle(key_image.toStdString(), dst_addr.toStdString(),
outputs, static_cast<Monero::PendingTransaction::Priority>(priority));
PendingTransaction * result = new PendingTransaction(ptImpl, this);
return result;
}
void Wallet::createTransactionSingleAsync(const QString &key_image, const QString &dst_addr, const size_t outputs,
PendingTransaction::Priority priority)
{
m_scheduler.run([this, key_image, dst_addr, outputs, priority] {
PendingTransaction *tx = createTransactionSingle(key_image, dst_addr, outputs, priority);
emit transactionCreated(tx, dst_addr, "", 0); // todo: return true mixincount
});
}
PendingTransaction *Wallet::createSweepUnmixableTransaction()
{
Monero::PendingTransaction * ptImpl = m_walletImpl->createSweepUnmixableTransaction();
PendingTransaction * result = new PendingTransaction(ptImpl, this);
return result;
}
void Wallet::createSweepUnmixableTransactionAsync()
{
m_scheduler.run([this] {
PendingTransaction *tx = createSweepUnmixableTransaction();
emit transactionCreated(tx, "", "", 0);
});
}
UnsignedTransaction * Wallet::loadTxFile(const QString &fileName)
{
qDebug() << "Trying to sign " << fileName;
Monero::UnsignedTransaction * ptImpl = m_walletImpl->loadUnsignedTx(fileName.toStdString());
UnsignedTransaction * result = new UnsignedTransaction(ptImpl, m_walletImpl, this);
return result;
}
bool Wallet::submitTxFile(const QString &fileName) const
{
qDebug() << "Trying to submit " << fileName;
if (!m_walletImpl->submitTransaction(fileName.toStdString()))
return false;
// import key images
return m_walletImpl->importKeyImages(fileName.toStdString() + "_keyImages");
}
void Wallet::commitTransactionAsync(PendingTransaction *t)
{
m_scheduler.run([this, t] {
auto txIdList = t->txid(); // retrieve before commit
emit transactionCommitted(t->commit(), t, txIdList);
});
}
void Wallet::disposeTransaction(PendingTransaction *t)
{
m_walletImpl->disposeTransaction(t->m_pimpl);
delete t;
}
void Wallet::disposeTransaction(UnsignedTransaction *t)
{
delete t;
}
// @ TODO: QJSValue could probably be QVARIANT
//void Wallet::estimateTransactionFeeAsync(const QString &destination,
// quint64 amount,
// PendingTransaction::Priority priority,
// const QJSValue &callback)
//{
// m_scheduler.run([this, destination, amount, priority] {
// const uint64_t fee = m_walletImpl->estimateTransactionFee(
// {std::make_pair(destination.toStdString(), amount)},
// static_cast<Monero::PendingTransaction::Priority>(priority));
// return QJSValueList({QString::fromStdString(Monero::Wallet::displayAmount(fee))});
// }, callback);
//}
TransactionHistory *Wallet::history() const
{
return m_history;
}
TransactionHistoryProxyModel *Wallet::historyModel() const
{
if (!m_historyModel) {
Wallet * w = const_cast<Wallet*>(this);
m_historyModel = new TransactionHistoryModel(w);
m_historyModel->setTransactionHistory(this->history());
m_historySortFilterModel = new TransactionHistoryProxyModel(w);
m_historySortFilterModel->setSourceModel(m_historyModel);
m_historySortFilterModel->setSortRole(TransactionHistoryModel::Date);
m_historySortFilterModel->sort(0, Qt::DescendingOrder);
}
return m_historySortFilterModel;
}
TransactionHistoryModel *Wallet::transactionHistoryModel() const
{
return m_historyModel;
}
AddressBook *Wallet::addressBook() const
{
return m_addressBook;
}
AddressBookModel *Wallet::addressBookModel() const
{
if (!m_addressBookModel) {
Wallet * w = const_cast<Wallet*>(this);
m_addressBookModel = new AddressBookModel(w,m_addressBook);
}
return m_addressBookModel;
}
Subaddress *Wallet::subaddress()
{
return m_subaddress;
}
SubaddressModel *Wallet::subaddressModel()
{
if (!m_subaddressModel) {
m_subaddressModel = new SubaddressModel(this, m_subaddress);
}
return m_subaddressModel;
}
SubaddressAccount *Wallet::subaddressAccount() const
{
return m_subaddressAccount;
}
SubaddressAccountModel *Wallet::subaddressAccountModel() const
{
if (!m_subaddressAccountModel) {
Wallet * w = const_cast<Wallet*>(this);
m_subaddressAccountModel = new SubaddressAccountModel(w,m_subaddressAccount);
}
return m_subaddressAccountModel;
}
Coins *Wallet::coins() const
{
return m_coins;
}
CoinsModel *Wallet::coinsModel() const
{
if (!m_coinsModel) {
Wallet * w = const_cast<Wallet*>(this);
m_coinsModel = new CoinsModel(w, m_coins);
}
return m_coinsModel;
}
QString Wallet::generatePaymentId() const
{
return QString::fromStdString(Monero::Wallet::genPaymentId());
}
QString Wallet::integratedAddress(const QString &paymentId) const
{
return QString::fromStdString(m_walletImpl->integratedAddress(paymentId.toStdString()));
}
QString Wallet::paymentId() const
{
return m_paymentId;
}
void Wallet::setPaymentId(const QString &paymentId)
{
m_paymentId = paymentId;
}
QString Wallet::getCacheAttribute(const QString &key) const {
return QString::fromStdString(m_walletImpl->getCacheAttribute(key.toStdString()));
}
bool Wallet::setCacheAttribute(const QString &key, const QString &val)
{
return m_walletImpl->setCacheAttribute(key.toStdString(), val.toStdString());
}
bool Wallet::setUserNote(const QString &txid, const QString &note)
{
return m_walletImpl->setUserNote(txid.toStdString(), note.toStdString());
}
QString Wallet::getUserNote(const QString &txid) const
{
return QString::fromStdString(m_walletImpl->getUserNote(txid.toStdString()));
}
QString Wallet::getTxKey(const QString &txid) const
{
return QString::fromStdString(m_walletImpl->getTxKey(txid.toStdString()));
}
//void Wallet::getTxKeyAsync(const QString &txid, const QJSValue &callback)
//{
// m_scheduler.run([this, txid] {
// return QJSValueList({txid, getTxKey(txid)});
// }, callback);
//}
QString Wallet::checkTxKey(const QString &txid, const QString &tx_key, const QString &address)
{
uint64_t received;
bool in_pool;
uint64_t confirmations;
bool success = m_walletImpl->checkTxKey(txid.toStdString(), tx_key.toStdString(), address.toStdString(), received, in_pool, confirmations);
std::string result = std::string(success ? "true" : "false") + "|" + QString::number(received).toStdString() + "|" + std::string(in_pool ? "true" : "false") + "|" + QString::number(confirmations).toStdString();
return QString::fromStdString(result);
}
QString Wallet::getTxProof(const QString &txid, const QString &address, const QString &message) const
{
std::string result = m_walletImpl->getTxProof(txid.toStdString(), address.toStdString(), message.toStdString());
if (result.empty())
result = "error|" + m_walletImpl->errorString();
return QString::fromStdString(result);
}
//void Wallet::getTxProofAsync(const QString &txid, const QString &address, const QString &message, const QJSValue &callback)
//{
// m_scheduler.run([this, txid, address, message] {
// return QJSValueList({txid, getTxProof(txid, address, message)});
// }, callback);
//}
TxProofResult Wallet::checkTxProof(const QString &txid, const QString &address, const QString &message, const QString &signature)
{
bool good;
uint64_t received;
bool in_pool;
uint64_t confirmations;
bool success = m_walletImpl->checkTxProof(txid.toStdString(), address.toStdString(), message.toStdString(), signature.toStdString(), good, received, in_pool, confirmations);
return {success, good, received, in_pool, confirmations};
}
Q_INVOKABLE QString Wallet::getSpendProof(const QString &txid, const QString &message) const
{
std::string result = m_walletImpl->getSpendProof(txid.toStdString(), message.toStdString());
if (result.empty())
result = "error|" + m_walletImpl->errorString();
return QString::fromStdString(result);
}
//void Wallet::getSpendProofAsync(const QString &txid, const QString &message, const QJSValue &callback)
//{
// m_scheduler.run([this, txid, message] {
// return QJSValueList({txid, getSpendProof(txid, message)});
// }, callback);
//}
Q_INVOKABLE QPair<bool, bool> Wallet::checkSpendProof(const QString &txid, const QString &message,
const QString &signature) const {
bool good;
bool success = m_walletImpl->checkSpendProof(txid.toStdString(), message.toStdString(), signature.toStdString(), good);
return {success, good};
}
QString Wallet::signMessage(const QString &message, bool filename, const QString &address) const
{
if (filename) {
QFile file(message);
uchar *data = NULL;
try {
if (!file.open(QIODevice::ReadOnly))
return "";
quint64 size = file.size();
if (size == 0) {
file.close();
return QString::fromStdString(m_walletImpl->signMessage(std::string()));
}
data = file.map(0, size);
if (!data) {
file.close();
return "";
}
std::string signature = m_walletImpl->signMessage(std::string(reinterpret_cast<const char*>(data), size), address.toStdString());
file.unmap(data);
file.close();
return QString::fromStdString(signature);
}
catch (const std::exception &e) {
if (data)
file.unmap(data);
file.close();
return "";
}
}
else {
return QString::fromStdString(m_walletImpl->signMessage(message.toStdString(), address.toStdString()));
}
}
bool Wallet::verifySignedMessage(const QString &message, const QString &address, const QString &signature, bool filename) const
{
if (filename) {
QFile file(message);
uchar *data = NULL;
try {
if (!file.open(QIODevice::ReadOnly))
return false;
quint64 size = file.size();
if (size == 0) {
file.close();
return m_walletImpl->verifySignedMessage(std::string(), address.toStdString(), signature.toStdString());
}
data = file.map(0, size);
if (!data) {
file.close();
return false;
}
bool ret = m_walletImpl->verifySignedMessage(std::string(reinterpret_cast<const char*>(data), size), address.toStdString(), signature.toStdString());
file.unmap(data);
file.close();
return ret;
}
catch (const std::exception &e) {
if (data)
file.unmap(data);
file.close();
return false;
}
}
else {
return m_walletImpl->verifySignedMessage(message.toStdString(), address.toStdString(), signature.toStdString());
}
}
bool Wallet::parse_uri(const QString &uri, QString &address, QString &payment_id, uint64_t &amount, QString &tx_description, QString &recipient_name, QVector<QString> &unknown_parameters, QString &error)
{
std::string s_address, s_payment_id, s_tx_description, s_recipient_name, s_error;
std::vector<std::string> s_unknown_parameters;
bool res= m_walletImpl->parse_uri(uri.toStdString(), s_address, s_payment_id, amount, s_tx_description, s_recipient_name, s_unknown_parameters, s_error);
if(res)
{
address = QString::fromStdString(s_address);
payment_id = QString::fromStdString(s_payment_id);
tx_description = QString::fromStdString(s_tx_description);
recipient_name = QString::fromStdString(s_recipient_name);
for( const auto &p : s_unknown_parameters )
unknown_parameters.append(QString::fromStdString(p));
}
error = QString::fromStdString(s_error);
return res;
}
bool Wallet::rescanSpent()
{
return m_walletImpl->rescanSpent();
}
bool Wallet::useForkRules(quint8 required_version, quint64 earlyBlocks) const
{
if(m_connectionStatus == Wallet::ConnectionStatus_Disconnected)
return false;
try {
return m_walletImpl->useForkRules(required_version,earlyBlocks);
} catch (const std::exception &e) {
qDebug() << e.what();
return false;
}
}
void Wallet::setWalletCreationHeight(quint64 height)
{
m_walletImpl->setRefreshFromBlockHeight(height);
emit walletCreationHeightChanged();
}
QString Wallet::getDaemonLogPath() const
{
return QString::fromStdString(m_walletImpl->getDefaultDataDir()) + "/bitmonero.log";
}
bool Wallet::blackballOutput(const QString &amount, const QString &offset)
{
return m_walletImpl->blackballOutput(amount.toStdString(), offset.toStdString());
}
bool Wallet::blackballOutputs(const QList<QString> &pubkeys, bool add)
{
std::vector<std::string> std_pubkeys;
foreach (const QString &pubkey, pubkeys) {
std_pubkeys.push_back(pubkey.toStdString());
}
return m_walletImpl->blackballOutputs(std_pubkeys, add);
}
bool Wallet::blackballOutputs(const QString &filename, bool add)
{
QFile file(filename);
try {
if (!file.open(QIODevice::ReadOnly))
return false;
QList<QString> outputs;
QTextStream in(&file);
while (!in.atEnd()) {
outputs.push_back(in.readLine());
}
file.close();
return blackballOutputs(outputs, add);
}
catch (const std::exception &e) {
file.close();
return false;
}
}
bool Wallet::unblackballOutput(const QString &amount, const QString &offset)
{
return m_walletImpl->unblackballOutput(amount.toStdString(), offset.toStdString());
}
QString Wallet::getRing(const QString &key_image)
{
std::vector<uint64_t> cring;
if (!m_walletImpl->getRing(key_image.toStdString(), cring))
return "";
QString ring = "";
for (uint64_t out: cring)
{
if (!ring.isEmpty())
ring = ring + " ";
QString s;
s.setNum(out);
ring = ring + s;
}
return ring;
}
QString Wallet::getRings(const QString &txid)
{
std::vector<std::pair<std::string, std::vector<uint64_t>>> crings;
if (!m_walletImpl->getRings(txid.toStdString(), crings))
return "";
QString ring = "";
for (const auto &cring: crings)
{
if (!ring.isEmpty())
ring = ring + "|";
ring = ring + QString::fromStdString(cring.first) + " absolute";
for (uint64_t out: cring.second)
{
ring = ring + " ";
QString s;
s.setNum(out);
ring = ring + s;
}
}
return ring;
}
bool Wallet::setRing(const QString &key_image, const QString &ring, bool relative)
{
std::vector<uint64_t> cring;
QStringList strOuts = ring.split(" ");
foreach(QString str, strOuts)
{
uint64_t out;
bool ok;
out = str.toULong(&ok);
if (ok)
cring.push_back(out);
}
return m_walletImpl->setRing(key_image.toStdString(), cring, relative);
}
void Wallet::segregatePreForkOutputs(bool segregate)
{
m_walletImpl->segregatePreForkOutputs(segregate);
}
void Wallet::segregationHeight(quint64 height)
{
m_walletImpl->segregationHeight(height);
}
void Wallet::keyReuseMitigation2(bool mitigation)
{
m_walletImpl->keyReuseMitigation2(mitigation);
}
void Wallet::onWalletPassphraseNeeded(bool on_device)
{
emit this->walletPassphraseNeeded(on_device);
}
void Wallet::onPassphraseEntered(const QString &passphrase, bool enter_on_device, bool entry_abort)
{
if (m_walletListener != nullptr)
{
m_walletListener->onPassphraseEntered(passphrase, enter_on_device, entry_abort);
}
}
Wallet::Wallet(Monero::Wallet *w, QObject *parent)
: QObject(parent)
, m_walletImpl(w)
, m_history(nullptr)
, m_historyModel(nullptr)
, m_addressBook(nullptr)
, m_addressBookModel(nullptr)
, m_daemonBlockChainHeight(0)
, m_daemonBlockChainHeightTtl(DAEMON_BLOCKCHAIN_HEIGHT_CACHE_TTL_SECONDS)
, m_daemonBlockChainTargetHeight(0)
, m_daemonBlockChainTargetHeightTtl(DAEMON_BLOCKCHAIN_TARGET_HEIGHT_CACHE_TTL_SECONDS)
, m_connectionStatus(Wallet::ConnectionStatus_Disconnected)
, m_connectionStatusTtl(WALLET_CONNECTION_STATUS_CACHE_TTL_SECONDS)
, m_disconnected(true)
, m_currentSubaddressAccount(0)
, m_subaddress(nullptr)
, m_subaddressModel(nullptr)
, m_subaddressAccount(nullptr)
, m_subaddressAccountModel(nullptr)
, m_coinsModel(nullptr)
, m_scheduler(this)
{
m_history = new TransactionHistory(m_walletImpl->history(), this);
m_addressBook = new AddressBook(m_walletImpl->addressBook(), this);
m_subaddress = new Subaddress(m_walletImpl->subaddress(), this);
m_subaddressAccount = new SubaddressAccount(m_walletImpl->subaddressAccount(), this);
m_coins = new Coins(m_walletImpl->coins(), this);
m_walletListener = new WalletListenerImpl(this);
m_walletImpl->setListener(m_walletListener);
m_currentSubaddressAccount = getCacheAttribute(ATTRIBUTE_SUBADDRESS_ACCOUNT).toUInt();
// start cache timers
m_connectionStatusTime.start();
m_daemonBlockChainHeightTime.start();
m_daemonBlockChainTargetHeightTime.start();
m_initialized = false;
m_connectionStatusRunning = false;
m_daemonUsername = "";
m_daemonPassword = "";
}
Wallet::~Wallet()
{
qDebug() << "~Wallet: Closing wallet";
m_scheduler.shutdownWaitForFinished();
delete m_addressBook;
m_addressBook = NULL;
delete m_history;
m_history = NULL;
delete m_addressBook;
m_addressBook = NULL;
delete m_subaddress;
m_subaddress = NULL;
delete m_subaddressAccount;
m_subaddressAccount = NULL;
delete m_coins;
m_coins = NULL;
//Monero::WalletManagerFactory::getWalletManager()->closeWallet(m_walletImpl);
if(status() == Status_Critical)
qDebug("Not storing wallet cache");
else if( m_walletImpl->store(""))
qDebug("Wallet cache stored successfully");
else
qDebug("Error storing wallet cache");
delete m_walletImpl;
m_walletImpl = NULL;
delete m_walletListener;
m_walletListener = NULL;
qDebug("m_walletImpl deleted");
}