dash/src/qt/walletmodel.cpp

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#include "walletmodel.h"
#include "guiconstants.h"
#include "optionsmodel.h"
#include "addresstablemodel.h"
#include "transactiontablemodel.h"
#include "ui_interface.h"
#include "walletdb.h" // for BackupWallet
#include "base58.h"
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#include <QSet>
#include <QTimer>
WalletModel::WalletModel(CWallet *wallet, OptionsModel *optionsModel, QObject *parent) :
QObject(parent), wallet(wallet), optionsModel(optionsModel), addressTableModel(0),
transactionTableModel(0),
cachedBalance(0), cachedUnconfirmedBalance(0), cachedImmatureBalance(0),
cachedNumTransactions(0),
cachedEncryptionStatus(Unencrypted),
cachedNumBlocks(0)
{
addressTableModel = new AddressTableModel(wallet, this);
transactionTableModel = new TransactionTableModel(wallet, this);
// This timer will be fired repeatedly to update the balance
pollTimer = new QTimer(this);
connect(pollTimer, SIGNAL(timeout()), this, SLOT(pollBalanceChanged()));
pollTimer->start(MODEL_UPDATE_DELAY);
subscribeToCoreSignals();
}
WalletModel::~WalletModel()
{
unsubscribeFromCoreSignals();
}
qint64 WalletModel::getBalance() const
{
return wallet->GetBalance();
}
qint64 WalletModel::getUnconfirmedBalance() const
{
return wallet->GetUnconfirmedBalance();
}
qint64 WalletModel::getImmatureBalance() const
{
return wallet->GetImmatureBalance();
}
int WalletModel::getNumTransactions() const
{
int numTransactions = 0;
{
LOCK(wallet->cs_wallet);
// the size of mapWallet contains the number of unique transaction IDs
// (e.g. payments to yourself generate 2 transactions, but both share the same transaction ID)
numTransactions = wallet->mapWallet.size();
}
return numTransactions;
}
void WalletModel::updateStatus()
{
EncryptionStatus newEncryptionStatus = getEncryptionStatus();
if(cachedEncryptionStatus != newEncryptionStatus)
emit encryptionStatusChanged(newEncryptionStatus);
}
void WalletModel::pollBalanceChanged()
{
if(nBestHeight != cachedNumBlocks)
{
// Balance and number of transactions might have changed
cachedNumBlocks = nBestHeight;
checkBalanceChanged();
}
}
void WalletModel::checkBalanceChanged()
{
qint64 newBalance = getBalance();
qint64 newUnconfirmedBalance = getUnconfirmedBalance();
qint64 newImmatureBalance = getImmatureBalance();
if(cachedBalance != newBalance || cachedUnconfirmedBalance != newUnconfirmedBalance || cachedImmatureBalance != newImmatureBalance)
{
cachedBalance = newBalance;
cachedUnconfirmedBalance = newUnconfirmedBalance;
cachedImmatureBalance = newImmatureBalance;
emit balanceChanged(newBalance, newUnconfirmedBalance, newImmatureBalance);
}
}
void WalletModel::updateTransaction(const QString &hash, int status)
{
if(transactionTableModel)
transactionTableModel->updateTransaction(hash, status);
// Balance and number of transactions might have changed
checkBalanceChanged();
int newNumTransactions = getNumTransactions();
if(cachedNumTransactions != newNumTransactions)
{
cachedNumTransactions = newNumTransactions;
emit numTransactionsChanged(newNumTransactions);
}
}
void WalletModel::updateAddressBook(const QString &address, const QString &label,
bool isMine, const QString &purpose, int status)
{
if(addressTableModel)
addressTableModel->updateEntry(address, label, isMine, purpose, status);
}
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bool WalletModel::validateAddress(const QString &address)
{
CBitcoinAddress addressParsed(address.toStdString());
return addressParsed.IsValid();
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}
WalletModel::SendCoinsReturn WalletModel::prepareTransaction(WalletModelTransaction &transaction)
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{
qint64 total = 0;
QList<SendCoinsRecipient> recipients = transaction.getRecipients();
std::vector<std::pair<CScript, int64> > vecSend;
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if(recipients.empty())
{
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return OK;
}
QSet<QString> setAddress; // Used to detect duplicates
int nAddresses = 0;
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// Pre-check input data for validity
foreach(const SendCoinsRecipient &rcp, recipients)
{
if (rcp.paymentRequest.IsInitialized())
{ // PaymentRequest...
int64 subtotal = 0;
const payments::PaymentDetails& details = rcp.paymentRequest.getDetails();
for (int i = 0; i < details.outputs_size(); i++)
{
const payments::Output& out = details.outputs(i);
if (out.amount() <= 0) continue;
subtotal += out.amount();
const unsigned char* scriptStr = (const unsigned char*)out.script().data();
CScript scriptPubKey(scriptStr, scriptStr+out.script().size());
vecSend.push_back(std::pair<CScript, int64>(scriptPubKey, out.amount()));
}
if (subtotal <= 0)
{
return InvalidAmount;
}
total += subtotal;
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}
else
{ // User-entered bitcoin address / amount:
if(!validateAddress(rcp.address))
{
return InvalidAddress;
}
if(rcp.amount <= 0)
{
return InvalidAmount;
}
setAddress.insert(rcp.address);
++nAddresses;
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CScript scriptPubKey;
scriptPubKey.SetDestination(CBitcoinAddress(rcp.address.toStdString()).Get());
vecSend.push_back(std::pair<CScript, int64>(scriptPubKey, rcp.amount));
total += rcp.amount;
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}
}
if(setAddress.size() != nAddresses)
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{
return DuplicateAddress;
}
if(total > getBalance())
{
return AmountExceedsBalance;
}
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if((total + nTransactionFee) > getBalance())
{
transaction.setTransactionFee(nTransactionFee);
return SendCoinsReturn(AmountWithFeeExceedsBalance);
}
{
LOCK2(cs_main, wallet->cs_wallet);
transaction.newPossibleKeyChange(wallet);
int64 nFeeRequired = 0;
std::string strFailReason;
CWalletTx *newTx = transaction.getTransaction();
CReserveKey *keyChange = transaction.getPossibleKeyChange();
bool fCreated = wallet->CreateTransaction(vecSend, *newTx, *keyChange, nFeeRequired, strFailReason);
transaction.setTransactionFee(nFeeRequired);
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if(!fCreated)
{
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if((total + nFeeRequired) > wallet->GetBalance())
{
return SendCoinsReturn(AmountWithFeeExceedsBalance);
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}
emit message(tr("Send Coins"), QString::fromStdString(strFailReason),
CClientUIInterface::MSG_ERROR);
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return TransactionCreationFailed;
}
}
return SendCoinsReturn(OK);
}
WalletModel::SendCoinsReturn WalletModel::sendCoins(WalletModelTransaction &transaction)
{
QByteArray transaction_array; /* store serialized transaction */
{
LOCK2(cs_main, wallet->cs_wallet);
CWalletTx *newTx = transaction.getTransaction();
// Store PaymentRequests in wtx.vOrderForm in wallet.
foreach(const SendCoinsRecipient &rcp, transaction.getRecipients())
{
if (rcp.paymentRequest.IsInitialized())
{
std::string key("PaymentRequest");
std::string value;
rcp.paymentRequest.SerializeToString(&value);
newTx->vOrderForm.push_back(make_pair(key, value));
}
}
CReserveKey *keyChange = transaction.getPossibleKeyChange();
if(!wallet->CommitTransaction(*newTx, *keyChange))
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return TransactionCommitFailed;
CTransaction* t = (CTransaction*)newTx;
CDataStream ssTx(SER_NETWORK, PROTOCOL_VERSION);
ssTx << *t;
transaction_array.append(&(ssTx[0]), ssTx.size());
}
// Add addresses / update labels that we've sent to to the address book,
// and emit coinsSent signal for each recipient
foreach(const SendCoinsRecipient &rcp, transaction.getRecipients())
{
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std::string strAddress = rcp.address.toStdString();
CTxDestination dest = CBitcoinAddress(strAddress).Get();
std::string strLabel = rcp.label.toStdString();
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{
LOCK(wallet->cs_wallet);
std::map<CTxDestination, CAddressBookData>::iterator mi = wallet->mapAddressBook.find(dest);
// Check if we have a new address or an updated label
if (mi == wallet->mapAddressBook.end())
{
wallet->SetAddressBook(dest, strLabel, "send");
}
else if (mi->second.name != strLabel)
{
wallet->SetAddressBook(dest, strLabel, ""); // "" means don't change purpose
}
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}
emit coinsSent(wallet, rcp, transaction_array);
}
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return SendCoinsReturn(OK);
}
OptionsModel *WalletModel::getOptionsModel()
{
return optionsModel;
}
AddressTableModel *WalletModel::getAddressTableModel()
{
return addressTableModel;
}
TransactionTableModel *WalletModel::getTransactionTableModel()
{
return transactionTableModel;
}
WalletModel::EncryptionStatus WalletModel::getEncryptionStatus() const
{
if(!wallet->IsCrypted())
{
return Unencrypted;
}
else if(wallet->IsLocked())
{
return Locked;
}
else
{
return Unlocked;
}
}
bool WalletModel::setWalletEncrypted(bool encrypted, const SecureString &passphrase)
{
if(encrypted)
{
// Encrypt
return wallet->EncryptWallet(passphrase);
}
else
{
// Decrypt -- TODO; not supported yet
return false;
}
}
bool WalletModel::setWalletLocked(bool locked, const SecureString &passPhrase)
{
if(locked)
{
// Lock
return wallet->Lock();
}
else
{
// Unlock
return wallet->Unlock(passPhrase);
}
}
bool WalletModel::changePassphrase(const SecureString &oldPass, const SecureString &newPass)
{
bool retval;
{
LOCK(wallet->cs_wallet);
wallet->Lock(); // Make sure wallet is locked before attempting pass change
retval = wallet->ChangeWalletPassphrase(oldPass, newPass);
}
return retval;
}
bool WalletModel::backupWallet(const QString &filename)
{
return BackupWallet(*wallet, filename.toLocal8Bit().data());
}
// Handlers for core signals
static void NotifyKeyStoreStatusChanged(WalletModel *walletmodel, CCryptoKeyStore *wallet)
{
OutputDebugStringF("NotifyKeyStoreStatusChanged\n");
QMetaObject::invokeMethod(walletmodel, "updateStatus", Qt::QueuedConnection);
}
static void NotifyAddressBookChanged(WalletModel *walletmodel, CWallet *wallet,
const CTxDestination &address, const std::string &label, bool isMine,
const std::string &purpose, ChangeType status)
{
OutputDebugStringF("NotifyAddressBookChanged %s %s isMine=%i purpose=%s status=%i\n",
CBitcoinAddress(address).ToString().c_str(), label.c_str(), isMine, purpose.c_str(), status);
QMetaObject::invokeMethod(walletmodel, "updateAddressBook", Qt::QueuedConnection,
Q_ARG(QString, QString::fromStdString(CBitcoinAddress(address).ToString())),
Q_ARG(QString, QString::fromStdString(label)),
Q_ARG(bool, isMine),
Q_ARG(QString, QString::fromStdString(purpose)),
Q_ARG(int, status));
}
static void NotifyTransactionChanged(WalletModel *walletmodel, CWallet *wallet, const uint256 &hash, ChangeType status)
{
OutputDebugStringF("NotifyTransactionChanged %s status=%i\n", hash.GetHex().c_str(), status);
QMetaObject::invokeMethod(walletmodel, "updateTransaction", Qt::QueuedConnection,
Q_ARG(QString, QString::fromStdString(hash.GetHex())),
Q_ARG(int, status));
}
void WalletModel::subscribeToCoreSignals()
{
// Connect signals to wallet
wallet->NotifyStatusChanged.connect(boost::bind(&NotifyKeyStoreStatusChanged, this, _1));
wallet->NotifyAddressBookChanged.connect(boost::bind(NotifyAddressBookChanged, this, _1, _2, _3, _4, _5, _6));
wallet->NotifyTransactionChanged.connect(boost::bind(NotifyTransactionChanged, this, _1, _2, _3));
}
void WalletModel::unsubscribeFromCoreSignals()
{
// Disconnect signals from wallet
wallet->NotifyStatusChanged.disconnect(boost::bind(&NotifyKeyStoreStatusChanged, this, _1));
wallet->NotifyAddressBookChanged.disconnect(boost::bind(NotifyAddressBookChanged, this, _1, _2, _3, _4, _5, _6));
wallet->NotifyTransactionChanged.disconnect(boost::bind(NotifyTransactionChanged, this, _1, _2, _3));
}
// WalletModel::UnlockContext implementation
WalletModel::UnlockContext WalletModel::requestUnlock()
{
bool was_locked = getEncryptionStatus() == Locked;
if(was_locked)
{
// Request UI to unlock wallet
emit requireUnlock();
}
// If wallet is still locked, unlock was failed or cancelled, mark context as invalid
bool valid = getEncryptionStatus() != Locked;
return UnlockContext(this, valid, was_locked);
}
WalletModel::UnlockContext::UnlockContext(WalletModel *wallet, bool valid, bool relock):
wallet(wallet),
valid(valid),
relock(relock)
{
}
WalletModel::UnlockContext::~UnlockContext()
{
if(valid && relock)
{
wallet->setWalletLocked(true);
}
}
void WalletModel::UnlockContext::CopyFrom(const UnlockContext& rhs)
{
// Transfer context; old object no longer relocks wallet
*this = rhs;
rhs.relock = false;
}