protected Collection<TransactionOutputEx> getSpendableOutputs() {
Collection<TransactionOutputEx> list = _backing.getAllUnspentOutputs();
// Prune confirmed outputs for coinbase outputs that are not old enough
// for spending. Also prune unconfirmed receiving coins except for change
int blockChainHeight = getBlockChainHeight();
Iterator<TransactionOutputEx> it = list.iterator();
while (it.hasNext()) {
TransactionOutputEx output = it.next();
if (output.isCoinBase) {
int confirmations = blockChainHeight - output.height;
if (confirmations < COINBASE_MIN_CONFIRMATIONS) {
it.remove();
continue;
}
}
// Unless we allow zero confirmation spending we prune all unconfirmed outputs sent from
// foreign addresses
if (!_allowZeroConfSpending) {
if (output.height == -1 && !isFromMe(output.outPoint.hash)) {
// Prune receiving coins that is not change sent to ourselves
it.remove();
}
}
}
return list;
}
@Override
public List<TransactionOutputSummary> getUnspentTransactionOutputSummary() {
// Note that this method is not synchronized, and we might fetch the transaction history while
// synchronizing
// accounts. That should be ok as we write to the DB in a sane order.
// Get all unspent outputs for this account
Collection<TransactionOutputEx> outputs = _backing.getAllUnspentOutputs();
// Transform it to a list of summaries
List<TransactionOutputSummary> list = new ArrayList<TransactionOutputSummary>();
int blockChainHeight = getBlockChainHeight();
for (TransactionOutputEx output : outputs) {
ScriptOutput script = ScriptOutput.fromScriptBytes(output.script);
Address address;
if (script == null) {
address = Address.getNullAddress(_network);
// This never happens as we have parsed this script before
} else {
address = script.getAddress(_network);
}
int confirmations;
if (output.height == -1) {
confirmations = 0;
} else {
confirmations = Math.max(0, blockChainHeight - output.height + 1);
}
TransactionOutputSummary summary =
new TransactionOutputSummary(
output.outPoint, output.value, output.height, confirmations, address);
list.add(summary);
}
// Sort & return
Collections.sort(list);
return list;
}
protected Balance calculateLocalBalance() {
Collection<TransactionOutputEx> unspentOutputs =
new HashSet<TransactionOutputEx>(_backing.getAllUnspentOutputs());
long confirmed = 0;
long pendingChange = 0;
long pendingSending = 0;
long pendingReceiving = 0;
//
// Determine the value we are receiving and create a set of outpoints for fast lookup
//
Set<OutPoint> unspentOutPoints = new HashSet<OutPoint>();
for (TransactionOutputEx output : unspentOutputs) {
if (output.height == -1) {
if (isFromMe(output.outPoint.hash)) {
pendingChange += output.value;
} else {
pendingReceiving += output.value;
}
} else {
confirmed += output.value;
}
unspentOutPoints.add(output.outPoint);
}
//
// Determine the value we are sending
//
// Get the current set of unconfirmed transactions
List<Transaction> unconfirmed = new ArrayList<Transaction>();
for (TransactionEx tex : _backing.getUnconfirmedTransactions()) {
try {
Transaction t = Transaction.fromByteReader(new ByteReader(tex.binary));
unconfirmed.add(t);
} catch (TransactionParsingException e) {
// never happens, we have parsed it before
}
}
for (Transaction t : unconfirmed) {
// For each input figure out if WE are sending it by fetching the
// parent transaction and looking at the address
boolean weSend = false;
for (TransactionInput input : t.inputs) {
// Find the parent transaction
if (input.outPoint.hash.equals(Sha256Hash.ZERO_HASH)) {
continue;
}
TransactionOutputEx parent = _backing.getParentTransactionOutput(input.outPoint);
if (parent == null) {
_logger.logError("Unable to find parent transaction output: " + input.outPoint);
continue;
}
TransactionOutput parentOutput = transform(parent);
Address fundingAddress = parentOutput.script.getAddress(_network);
if (isMine(fundingAddress)) {
// One of our addresses are sending coins
pendingSending += parentOutput.value;
weSend = true;
}
}
// Now look at the outputs and if it contains change for us, then subtract that from the
// sending amount
// if it is already spent in another transaction
for (int i = 0; i < t.outputs.length; i++) {
TransactionOutput output = t.outputs[i];
Address destination = output.script.getAddress(_network);
if (weSend && isMine(destination)) {
// The funds are sent from us to us
OutPoint outPoint = new OutPoint(t.getHash(), i);
if (!unspentOutPoints.contains(outPoint)) {
// This output has been spent, subtract it from the amount sent
pendingSending -= output.value;
}
}
}
}
int blockHeight = getBlockChainHeight();
return new Balance(
confirmed,
pendingReceiving,
pendingSending,
pendingChange,
System.currentTimeMillis(),
blockHeight,
true,
_allowZeroConfSpending);
}
protected boolean synchronizeUnspentOutputs(Collection<Address> addresses) {
// Get the current unspent outputs as dictated by the block chain
QueryUnspentOutputsResponse UnspentOutputResponse;
try {
UnspentOutputResponse =
_wapi
.queryUnspentOutputs(new QueryUnspentOutputsRequest(Wapi.VERSION, addresses))
.getResult();
} catch (WapiException e) {
_logger.logError("Server connection failed with error code: " + e.errorCode, e);
postEvent(Event.SERVER_CONNECTION_ERROR);
return false;
}
Collection<TransactionOutputEx> remoteUnspent = UnspentOutputResponse.unspent;
// Store the current block height
setBlockChainHeight(UnspentOutputResponse.height);
// Make a map for fast lookup
Map<OutPoint, TransactionOutputEx> remoteMap = toMap(remoteUnspent);
// Get the current unspent outputs as it is believed to be locally
Collection<TransactionOutputEx> localUnspent = _backing.getAllUnspentOutputs();
// Make a map for fast lookup
Map<OutPoint, TransactionOutputEx> localMap = toMap(localUnspent);
// Find remotely removed unspent outputs
for (TransactionOutputEx l : localUnspent) {
TransactionOutputEx r = remoteMap.get(l.outPoint);
if (r == null) {
// An output has gone. Maybe it was spent in another wallet, or
// never confirmed due to missing fees, double spend, or mutated.
// Either way, we delete it locally
_backing.deleteUnspentOutput(l.outPoint);
}
}
// Find remotely added unspent outputs
Set<Sha256Hash> transactionsToAddOrUpdate = new HashSet<Sha256Hash>();
List<TransactionOutputEx> unspentOutputsToAddOrUpdate = new LinkedList<TransactionOutputEx>();
for (TransactionOutputEx r : remoteUnspent) {
TransactionOutputEx l = localMap.get(r.outPoint);
if (l == null || l.height != r.height) {
// New remote output or new height (Maybe it confirmed or we
// might even have had a reorg). Either way we just update it
unspentOutputsToAddOrUpdate.add(r);
transactionsToAddOrUpdate.add(r.outPoint.hash);
// Note: We are not adding the unspent output to the DB just yet. We
// first want to verify the full set of funding transactions of the
// transaction that this unspent output belongs to
}
}
// Fetch updated or added transactions
if (transactionsToAddOrUpdate.size() > 0) {
GetTransactionsResponse response;
try {
response =
_wapi
.getTransactions(
new GetTransactionsRequest(Wapi.VERSION, transactionsToAddOrUpdate))
.getResult();
} catch (WapiException e) {
_logger.logError("Server connection failed with error code: " + e.errorCode, e);
postEvent(Event.SERVER_CONNECTION_ERROR);
return false;
}
try {
handleNewExternalTransactions(response.transactions);
} catch (WapiException e) {
_logger.logError("Server connection failed with error code: " + e.errorCode, e);
postEvent(Event.SERVER_CONNECTION_ERROR);
return false;
}
// Finally update out list of unspent outputs with added or updated
// outputs
for (TransactionOutputEx output : unspentOutputsToAddOrUpdate) {
_backing.putUnspentOutput(output);
}
}
return true;
}