support multithreading in api and protocols

close trade wallets while unused for scalability
verify txs do not use unlock height
increase trade init timeout to 60s
This commit is contained in:
woodser 2022-03-31 08:17:58 -04:00
parent fdddc87477
commit bb95b4b1d6
82 changed files with 2786 additions and 2338 deletions

View file

@ -14,8 +14,13 @@ localnet:
haveno:
./gradlew build
haveno-apps: # quick build desktop and daemon apps without tests, etc
./gradlew :core:compileJava :desktop:build
# build haveno without tests
no-tests:
./gradlew build -x test
# quick build desktop and daemon apps without tests
haveno-apps:
./gradlew :core:compileJava :desktop:build -x test
deploy:
# create a new screen session named 'localnet'

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@ -42,43 +42,61 @@ public abstract class PersistableList<T extends PersistablePayload> implements P
}
public void setAll(Collection<T> collection) {
this.list.clear();
this.list.addAll(collection);
synchronized (this.list) {
this.list.clear();
this.list.addAll(collection);
}
}
public boolean add(T item) {
if (!list.contains(item)) {
list.add(item);
return true;
synchronized (list) {
if (!list.contains(item)) {
list.add(item);
return true;
}
return false;
}
return false;
}
public boolean remove(T item) {
return list.remove(item);
synchronized (list) {
return list.remove(item);
}
}
public Stream<T> stream() {
return list.stream();
synchronized (list) {
return list.stream();
}
}
public int size() {
return list.size();
synchronized (list) {
return list.size();
}
}
public boolean contains(T item) {
return list.contains(item);
synchronized (list) {
return list.contains(item);
}
}
public boolean isEmpty() {
return list.isEmpty();
synchronized (list) {
return list.isEmpty();
}
}
public void forEach(Consumer<? super T> action) {
list.forEach(action);
synchronized (list) {
list.forEach(action);
}
}
public void clear() {
list.clear();
synchronized (list) {
list.clear();
}
}
}

View file

@ -66,11 +66,14 @@ public abstract class Task<T extends Model> {
}
protected void failed(Throwable t) {
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter(sw);
t.printStackTrace(pw);
errorMessage = sw.toString();
log.error(t.getMessage(), t);
// // append stacktrace to error message (only for development)
// StringWriter sw = new StringWriter();
// PrintWriter pw = new PrintWriter(sw);
// t.printStackTrace(pw);
// errorMessage = sw.toString();
errorMessage = t.getMessage() + " (task " + getClass().getSimpleName() + ")";
log.error(errorMessage, t);
taskHandler.handleErrorMessage(errorMessage);
}

View file

@ -434,7 +434,8 @@ public class CoreApi {
double buyerSecurityDeposit,
long triggerPrice,
String paymentAccountId,
Consumer<Offer> resultHandler) {
Consumer<Offer> resultHandler,
ErrorMessageHandler errorMessageHandler) {
coreOffersService.createAndPlaceOffer(currencyCode,
directionAsString,
priceAsString,
@ -445,7 +446,8 @@ public class CoreApi {
buyerSecurityDeposit,
triggerPrice,
paymentAccountId,
resultHandler);
resultHandler,
errorMessageHandler);
}
public Offer editOffer(String offerId,

View file

@ -85,113 +85,122 @@ public class CoreDisputesService {
}
public void openDispute(String tradeId, ResultHandler resultHandler, FaultHandler faultHandler) {
Trade trade = tradeManager.getTradeById(tradeId).orElseThrow(() ->
Trade trade = tradeManager.getOpenTrade(tradeId).orElseThrow(() ->
new IllegalArgumentException(format("trade with id '%s' not found", tradeId)));
Offer offer = trade.getOffer();
if (offer == null) throw new IllegalStateException(format("offer with tradeId '%s' is null", tradeId));
synchronized (trade) {
Offer offer = trade.getOffer();
if (offer == null) throw new IllegalStateException(format("offer with tradeId '%s' is null", tradeId));
// Dispute agents are registered as mediators and refund agents, but current UI appears to be hardcoded
// to reference the arbitrator. Reference code is in desktop PendingTradesDataModel.java and could be refactored.
var disputeManager = arbitrationManager;
var isSupportTicket = false;
var isMaker = tradeManager.isMyOffer(offer);
var dispute = createDisputeForTrade(trade, offer, keyRing.getPubKeyRing(), isMaker, isSupportTicket);
// Dispute agents are registered as mediators and refund agents, but current UI appears to be hardcoded
// to reference the arbitrator. Reference code is in desktop PendingTradesDataModel.java and could be refactored.
var disputeManager = arbitrationManager;
var isSupportTicket = false;
var isMaker = tradeManager.isMyOffer(offer);
var dispute = createDisputeForTrade(trade, offer, keyRing.getPubKeyRing(), isMaker, isSupportTicket);
// Sends the openNewDisputeMessage to arbitrator, who will then create 2 disputes
// one for the opener, the other for the peer, see sendPeerOpenedDisputeMessage.
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
String updatedMultisigHex = multisigWallet.getMultisigHex();
disputeManager.sendOpenNewDisputeMessage(dispute, false, updatedMultisigHex, resultHandler, faultHandler);
tradeManager.requestPersistence();
// Sends the openNewDisputeMessage to arbitrator, who will then create 2 disputes
// one for the opener, the other for the peer, see sendPeerOpenedDisputeMessage.
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
String updatedMultisigHex = multisigWallet.getMultisigHex();
disputeManager.sendOpenNewDisputeMessage(dispute, false, updatedMultisigHex, resultHandler, faultHandler);
tradeManager.requestPersistence();
// close multisig wallet
xmrWalletService.closeMultisigWallet(trade.getId());
}
}
public Dispute createDisputeForTrade(Trade trade, Offer offer, PubKeyRing pubKey, boolean isMaker, boolean isSupportTicket) {
byte[] payoutTxSerialized = null;
String payoutTxHashAsString = null;
synchronized (trade) {
byte[] payoutTxSerialized = null;
String payoutTxHashAsString = null;
PubKeyRing arbitratorPubKeyRing = trade.getArbitratorPubKeyRing();
checkNotNull(arbitratorPubKeyRing, "arbitratorPubKeyRing must not be null");
byte[] depositTxSerialized = null; // depositTx.bitcoinSerialize(); TODO (woodser)
String depositTxHashAsString = null; // depositTx.getHashAsString(); TODO (woodser)
Dispute dispute = new Dispute(new Date().getTime(),
trade.getId(),
pubKey.hashCode(), // trader id,
true,
(offer.getDirection() == OfferPayload.Direction.BUY) == isMaker,
isMaker,
pubKey,
trade.getDate().getTime(),
trade.getMaxTradePeriodDate().getTime(),
trade.getContract(),
trade.getContractHash(),
depositTxSerialized,
payoutTxSerialized,
depositTxHashAsString,
payoutTxHashAsString,
trade.getContractAsJson(),
trade.getMaker().getContractSignature(),
trade.getTaker().getContractSignature(),
trade.getMaker().getPaymentAccountPayload(),
trade.getTaker().getPaymentAccountPayload(),
arbitratorPubKeyRing,
isSupportTicket,
SupportType.ARBITRATION);
PubKeyRing arbitratorPubKeyRing = trade.getArbitratorPubKeyRing();
checkNotNull(arbitratorPubKeyRing, "arbitratorPubKeyRing must not be null");
byte[] depositTxSerialized = null; // depositTx.bitcoinSerialize(); TODO (woodser)
String depositTxHashAsString = null; // depositTx.getHashAsString(); TODO (woodser)
Dispute dispute = new Dispute(new Date().getTime(),
trade.getId(),
pubKey.hashCode(), // trader id,
true,
(offer.getDirection() == OfferPayload.Direction.BUY) == isMaker,
isMaker,
pubKey,
trade.getDate().getTime(),
trade.getMaxTradePeriodDate().getTime(),
trade.getContract(),
trade.getContractHash(),
depositTxSerialized,
payoutTxSerialized,
depositTxHashAsString,
payoutTxHashAsString,
trade.getContractAsJson(),
trade.getMaker().getContractSignature(),
trade.getTaker().getContractSignature(),
trade.getMaker().getPaymentAccountPayload(),
trade.getTaker().getPaymentAccountPayload(),
arbitratorPubKeyRing,
isSupportTicket,
SupportType.ARBITRATION);
trade.setDisputeState(Trade.DisputeState.DISPUTE_REQUESTED);
trade.setDisputeState(Trade.DisputeState.DISPUTE_REQUESTED);
return dispute;
return dispute;
}
}
public void resolveDispute(String tradeId, DisputeResult.Winner winner, DisputeResult.Reason reason, String summaryNotes, long customWinnerAmount) {
try {
var disputeOptional = arbitrationManager.getDisputesAsObservableList().stream()
var disputeOptional = arbitrationManager.getDisputesAsObservableList().stream() // TODO (woodser): use getDispute()
.filter(d -> tradeId.equals(d.getTradeId()))
.findFirst();
Dispute dispute;
if (disputeOptional.isPresent()) dispute = disputeOptional.get();
else throw new IllegalStateException(format("dispute for tradeId '%s' not found", tradeId));
synchronized (tradeManager.getTrade(tradeId)) {
var closeDate = new Date();
var disputeResult = createDisputeResult(dispute, winner, reason, summaryNotes, closeDate);
var contract = dispute.getContract();
var closeDate = new Date();
var disputeResult = createDisputeResult(dispute, winner, reason, summaryNotes, closeDate);
var contract = dispute.getContract();
DisputePayout payout;
if (customWinnerAmount > 0) {
payout = DisputePayout.CUSTOM;
} else if (winner == DisputeResult.Winner.BUYER) {
payout = DisputePayout.BUYER_GETS_TRADE_AMOUNT;
} else if (winner == DisputeResult.Winner.SELLER) {
payout = DisputePayout.SELLER_GETS_TRADE_AMOUNT;
} else {
throw new IllegalStateException("Unexpected DisputeResult.Winner: " + winner);
}
applyPayoutAmountsToDisputeResult(payout, dispute, disputeResult, customWinnerAmount);
DisputePayout payout;
if (customWinnerAmount > 0) {
payout = DisputePayout.CUSTOM;
} else if (winner == DisputeResult.Winner.BUYER) {
payout = DisputePayout.BUYER_GETS_TRADE_AMOUNT;
} else if (winner == DisputeResult.Winner.SELLER) {
payout = DisputePayout.SELLER_GETS_TRADE_AMOUNT;
} else {
throw new IllegalStateException("Unexpected DisputeResult.Winner: " + winner);
// resolve the payout
resolveDisputePayout(dispute, disputeResult, contract);
// close dispute ticket
closeDispute(arbitrationManager, dispute, disputeResult, false);
// close dispute ticket for peer
var peersDisputeOptional = arbitrationManager.getDisputesAsObservableList().stream()
.filter(d -> tradeId.equals(d.getTradeId()) && dispute.getTraderId() != d.getTraderId())
.findFirst();
if (peersDisputeOptional.isPresent()) {
var peerDispute = peersDisputeOptional.get();
var peerDisputeResult = createDisputeResult(peerDispute, winner, reason, summaryNotes, closeDate);
peerDisputeResult.setBuyerPayoutAmount(disputeResult.getBuyerPayoutAmount());
peerDisputeResult.setSellerPayoutAmount(disputeResult.getSellerPayoutAmount());
peerDisputeResult.setLoserPublisher(disputeResult.isLoserPublisher());
resolveDisputePayout(peerDispute, peerDisputeResult, peerDispute.getContract());
closeDispute(arbitrationManager, peerDispute, peerDisputeResult, false);
} else {
throw new IllegalStateException("could not find peer dispute");
}
arbitrationManager.requestPersistence();
}
applyPayoutAmountsToDisputeResult(payout, dispute, disputeResult, customWinnerAmount);
// resolve the payout
resolveDisputePayout(dispute, disputeResult, contract);
// close dispute ticket
closeDispute(arbitrationManager, dispute, disputeResult, false);
// close dispute ticket for peer
var peersDisputeOptional = arbitrationManager.getDisputesAsObservableList().stream()
.filter(d -> tradeId.equals(d.getTradeId()) && dispute.getTraderId() != d.getTraderId())
.findFirst();
if (peersDisputeOptional.isPresent()) {
var peerDispute = peersDisputeOptional.get();
var peerDisputeResult = createDisputeResult(peerDispute, winner, reason, summaryNotes, closeDate);
peerDisputeResult.setBuyerPayoutAmount(disputeResult.getBuyerPayoutAmount());
peerDisputeResult.setSellerPayoutAmount(disputeResult.getSellerPayoutAmount());
peerDisputeResult.setLoserPublisher(disputeResult.isLoserPublisher());
resolveDisputePayout(peerDispute, peerDisputeResult, peerDispute.getContract());
closeDispute(arbitrationManager, peerDispute, peerDisputeResult, false);
} else {
throw new IllegalStateException("could not find peer dispute");
}
arbitrationManager.requestPersistence();
} catch (Exception e) {
throw new IllegalStateException(e);
}
@ -245,29 +254,36 @@ public class CoreDisputesService {
// TODO (woodser): create disputed payout tx after showing payout tx confirmation, within doCloseIfValid() (see upstream/master)
if (!dispute.isMediationDispute()) {
try {
System.out.println(disputeResult);
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
//dispute.getContract().getArbitratorPubKeyRing(); // TODO: support arbitrator pub key ring in contract?
//disputeResult.setArbitratorPubKey(arbitratorAddressEntry.getPubKey());
synchronized (tradeManager.getTrade(dispute.getTradeId())) {
System.out.println(disputeResult);
//dispute.getContract().getArbitratorPubKeyRing(); // TODO: support arbitrator pub key ring in contract?
//disputeResult.setArbitratorPubKey(arbitratorAddressEntry.getPubKey());
// TODO (woodser): don't send signed tx if opener is not co-signer?
// // determine if opener is co-signer
// boolean openerIsWinner = (contract.getBuyerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.BUYER) || (contract.getSellerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.SELLER);
// boolean openerIsCosigner = openerIsWinner || disputeResult.isLoserPublisher();
// if (!openerIsCosigner) throw new RuntimeException("Need to query non-opener for updated multisig hex before creating tx");
// TODO (woodser): don't send signed tx if opener is not co-signer?
// // determine if opener is co-signer
// boolean openerIsWinner = (contract.getBuyerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.BUYER) || (contract.getSellerPubKeyRing().equals(dispute.getTraderPubKeyRing()) && disputeResult.getWinner() == Winner.SELLER);
// boolean openerIsCosigner = openerIsWinner || disputeResult.isLoserPublisher();
// if (!openerIsCosigner) throw new RuntimeException("Need to query non-opener for updated multisig hex before creating tx");
// arbitrator creates and signs dispute payout tx if dispute is in context of opener, otherwise opener's peer must request payout tx by providing updated multisig hex
boolean isOpener = dispute.isOpener();
System.out.println("Is dispute opener: " + isOpener);
if (isOpener) {
MoneroTxWallet arbitratorPayoutTx = ArbitrationManager.arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Created arbitrator-signed payout tx: " + arbitratorPayoutTx);
if (arbitratorPayoutTx != null)
disputeResult.setArbitratorSignedPayoutTxHex(arbitratorPayoutTx.getTxSet().getMultisigTxHex());
// open multisig wallet
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
// arbitrator creates and signs dispute payout tx if dispute is in context of opener, otherwise opener's peer must request payout tx by providing updated multisig hex
boolean isOpener = dispute.isOpener();
System.out.println("Is dispute opener: " + isOpener);
if (isOpener) {
MoneroTxWallet arbitratorPayoutTx = ArbitrationManager.arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Created arbitrator-signed payout tx: " + arbitratorPayoutTx);
if (arbitratorPayoutTx != null)
disputeResult.setArbitratorSignedPayoutTxHex(arbitratorPayoutTx.getTxSet().getMultisigTxHex());
}
// send arbitrator's updated multisig hex with dispute result
disputeResult.setArbitratorUpdatedMultisigHex(multisigWallet.getMultisigHex());
// close multisig wallet
xmrWalletService.closeMultisigWallet(dispute.getTradeId());
}
// send arbitrator's updated multisig hex with dispute result
disputeResult.setArbitratorUpdatedMultisigHex(multisigWallet.getMultisigHex());
} catch (AddressFormatException e2) {
log.error("Error at close dispute", e2);
return;

View file

@ -32,7 +32,7 @@ import bisq.core.payment.PaymentAccount;
import bisq.core.user.User;
import bisq.common.crypto.KeyRing;
import bisq.common.handlers.ErrorMessageHandler;
import org.bitcoinj.core.Coin;
import org.bitcoinj.core.Transaction;
import org.bitcoinj.utils.Fiat;
@ -175,7 +175,10 @@ class CoreOffersService {
List<String> allKeyImages = new ArrayList<String>();
for (Offer offer : offers) {
for (String keyImage : offer.getOfferPayload().getReserveTxKeyImages()) {
if (!allKeyImages.add(keyImage)) unreservedOffers.add(offer);
if (!allKeyImages.add(keyImage)) {
log.warn("Key image {} belongs to another offer, removing offer {}", keyImage, offer.getId());
unreservedOffers.add(offer);
}
}
}
@ -191,7 +194,10 @@ class CoreOffersService {
for (Offer offer : offers) {
if (unreservedOffers.contains(offer)) continue;
for (String keyImage : offer.getOfferPayload().getReserveTxKeyImages()) {
if (spentKeyImages.contains(keyImage)) unreservedOffers.add(offer);
if (spentKeyImages.contains(keyImage)) {
log.warn("Offer {} reserved funds have already been spent with key image {}", offer.getId(), keyImage);
unreservedOffers.add(offer);
}
}
}
@ -216,7 +222,8 @@ class CoreOffersService {
double buyerSecurityDeposit,
long triggerPrice,
String paymentAccountId,
Consumer<Offer> resultHandler) {
Consumer<Offer> resultHandler,
ErrorMessageHandler errorMessageHandler) {
coreWalletsService.verifyWalletsAreAvailable();
coreWalletsService.verifyEncryptedWalletIsUnlocked();
@ -252,7 +259,8 @@ class CoreOffersService {
buyerSecurityDeposit,
triggerPrice,
useSavingsWallet,
transaction -> resultHandler.accept(offer));
transaction -> resultHandler.accept(offer),
errorMessageHandler);
}
// Edit a placed offer.
@ -303,16 +311,14 @@ class CoreOffersService {
double buyerSecurityDeposit,
long triggerPrice,
boolean useSavingsWallet,
Consumer<Transaction> resultHandler) {
Consumer<Transaction> resultHandler,
ErrorMessageHandler errorMessageHandler) {
openOfferManager.placeOffer(offer,
buyerSecurityDeposit,
useSavingsWallet,
triggerPrice,
resultHandler::accept,
log::error);
if (offer.getErrorMessage() != null)
throw new IllegalStateException(offer.getErrorMessage());
errorMessageHandler);
}
private boolean offerMatchesDirectionAndCurrency(Offer offer,

View file

@ -100,7 +100,7 @@ class CorePaymentAccountsService {
// Crypto Currency Accounts
PaymentAccount createCryptoCurrencyPaymentAccount(String accountName,
synchronized PaymentAccount createCryptoCurrencyPaymentAccount(String accountName,
String currencyCode,
String address,
boolean tradeInstant) {

View file

@ -103,16 +103,24 @@ class CoreTradesService {
throw new IllegalArgumentException(format("payment account with id '%s' not found", paymentAccountId));
var useSavingsWallet = true;
//noinspection ConstantConditions
takeOfferModel.initModel(offer, paymentAccount, useSavingsWallet);
log.info("Initiating take {} offer, {}",
offer.isBuyOffer() ? "buy" : "sell",
takeOfferModel);
//noinspection ConstantConditions
// synchronize access to take offer model // TODO (woodser): to avoid synchronizing, don't use stateful model
Coin txFeeFromFeeService; // TODO (woodser): remove this and other unused fields
Coin takerFee;
Coin fundsNeededForTrade;
synchronized (takeOfferModel) {
takeOfferModel.initModel(offer, paymentAccount, useSavingsWallet);
txFeeFromFeeService = takeOfferModel.getTxFeeFromFeeService();
takerFee = takeOfferModel.getTakerFee();
fundsNeededForTrade = takeOfferModel.getFundsNeededForTrade();
log.info("Initiating take {} offer, {}", offer.isBuyOffer() ? "buy" : "sell", takeOfferModel);
}
// take offer
tradeManager.onTakeOffer(offer.getAmount(),
takeOfferModel.getTxFeeFromFeeService(),
takeOfferModel.getTakerFee(),
takeOfferModel.getFundsNeededForTrade(),
txFeeFromFeeService,
takerFee,
fundsNeededForTrade,
offer,
paymentAccountId,
useSavingsWallet,
@ -225,7 +233,7 @@ class CoreTradesService {
}
private Optional<Trade> getOpenTrade(String tradeId) {
return tradeManager.getTradeById(tradeId);
return tradeManager.getOpenTrade(tradeId);
}
private Optional<Trade> getClosedTrade(String tradeId) {
@ -236,14 +244,14 @@ class CoreTradesService {
List<Trade> getTrades() {
coreWalletsService.verifyWalletsAreAvailable();
coreWalletsService.verifyEncryptedWalletIsUnlocked();
List<Trade> trades = new ArrayList<Trade>(tradeManager.getTrades());
List<Trade> trades = new ArrayList<Trade>(tradeManager.getOpenTrades());
trades.addAll(closedTradableManager.getClosedTrades());
return trades;
}
List<ChatMessage> getChatMessages(String tradeId) {
Trade trade;
var tradeOptional = tradeManager.getTradeById(tradeId);
var tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) trade = tradeOptional.get();
else throw new IllegalStateException(format("trade with id '%s' not found", tradeId));
boolean isMaker = tradeManager.isMyOffer(trade.getOffer());
@ -253,7 +261,7 @@ class CoreTradesService {
void sendChatMessage(String tradeId, String message) {
Trade trade;
var tradeOptional = tradeManager.getTradeById(tradeId);
var tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) trade = tradeOptional.get();
else throw new IllegalStateException(format("trade with id '%s' not found", tradeId));
boolean isMaker = tradeManager.isMyOffer(trade.getOffer());

View file

@ -509,12 +509,12 @@ class CoreWalletsService {
}
// Throws a RuntimeException if wallet currency code is not BTC.
// Throws a RuntimeException if wallet currency code is not BTC or XMR.
private void verifyWalletCurrencyCodeIsValid(String currencyCode) {
if (currencyCode == null || currencyCode.isEmpty())
return;
if (!currencyCode.equalsIgnoreCase("BTC"))
if (!currencyCode.equalsIgnoreCase("BTC") && !currencyCode.equalsIgnoreCase("XMR"))
throw new IllegalStateException(format("wallet does not support %s", currencyCode));
}

View file

@ -94,7 +94,7 @@ public class Balances {
private void updatedBalances() {
// Need to delay a bit to get the balances correct
UserThread.execute(() -> {
UserThread.execute(() -> { // TODO (woodser): running on user thread because JFX properties updated for legacy app
updateAvailableBalance();
updateLockedBalance();
updateReservedOfferBalance();

View file

@ -46,44 +46,51 @@ public class MoneroWalletRpcManager {
* @return a client connected to the monero-wallet-rpc instance
*/
public MoneroWalletRpc startInstance(List<String> cmd) {
try {
try {
// register given port
if (cmd.contains(RPC_BIND_PORT_ARGUMENT)) {
int portArgumentPosition = cmd.indexOf(RPC_BIND_PORT_ARGUMENT) + 1;
int port = Integer.parseInt(cmd.get(portArgumentPosition));
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmd); // starts monero-wallet-rpc process
registeredPorts.put(port, walletRpc);
return walletRpc;
}
// register assigned ports up to maximum attempts
else {
int numAttempts = 0;
while (numAttempts < NUM_ALLOWED_ATTEMPTS) {
int port = -1;
try {
numAttempts++;
port = registerPort();
List<String> cmdCopy = new ArrayList<>(cmd); // preserve original cmd
cmdCopy.add(RPC_BIND_PORT_ARGUMENT);
cmdCopy.add("" + port);
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmdCopy); // start monero-wallet-rpc process
registeredPorts.put(port, walletRpc);
return walletRpc;
} catch (Exception e) {
if (numAttempts >= NUM_ALLOWED_ATTEMPTS) {
log.error("Unable to start monero-wallet-rpc instance after {} attempts", NUM_ALLOWED_ATTEMPTS);
throw e;
}
// register given port
if (cmd.contains(RPC_BIND_PORT_ARGUMENT)) {
int portArgumentPosition = cmd.indexOf(RPC_BIND_PORT_ARGUMENT) + 1;
int port = Integer.parseInt(cmd.get(portArgumentPosition));
synchronized (registeredPorts) {
if (registeredPorts.containsKey(port)) throw new RuntimeException("Port " + port + " is already registered");
registeredPorts.put(port, null);
}
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmd); // starts monero-wallet-rpc process
synchronized (registeredPorts) {
registeredPorts.put(port, walletRpc);
}
return walletRpc;
}
}
throw new MoneroError("Failed to start monero-wallet-rpc instance after " + NUM_ALLOWED_ATTEMPTS + " attempts"); // should never reach here
// register assigned ports up to maximum attempts
else {
int numAttempts = 0;
while (numAttempts < NUM_ALLOWED_ATTEMPTS) {
int port = -1;
try {
numAttempts++;
port = registerPort();
List<String> cmdCopy = new ArrayList<>(cmd); // preserve original cmd
cmdCopy.add(RPC_BIND_PORT_ARGUMENT);
cmdCopy.add("" + port);
MoneroWalletRpc walletRpc = new MoneroWalletRpc(cmdCopy); // start monero-wallet-rpc process
synchronized (registeredPorts) {
registeredPorts.put(port, walletRpc);
}
return walletRpc;
} catch (Exception e) {
if (numAttempts >= NUM_ALLOWED_ATTEMPTS) {
log.error("Unable to start monero-wallet-rpc instance after {} attempts", NUM_ALLOWED_ATTEMPTS);
throw e;
}
}
}
throw new MoneroError("Failed to start monero-wallet-rpc instance after " + NUM_ALLOWED_ATTEMPTS + " attempts"); // should never reach here
}
} catch (IOException e) {
throw new MoneroError(e);
}
} catch (IOException e) {
throw new MoneroError(e);
}
}
/**
@ -93,41 +100,59 @@ public class MoneroWalletRpcManager {
* @param save specifies if the wallet should be saved before closing
*/
public void stopInstance(MoneroWalletRpc walletRpc, boolean save) {
boolean found = false;
for (Map.Entry<Integer, MoneroWalletRpc> entry : registeredPorts.entrySet()) {
if (walletRpc == entry.getValue()) {
walletRpc.close(save);
walletRpc.stopProcess();
found = true;
try { unregisterPort(entry.getKey()); }
catch (Exception e) { throw new MoneroError(e); }
break;
// unregister port
synchronized (registeredPorts) {
boolean found = false;
for (Map.Entry<Integer, MoneroWalletRpc> entry : registeredPorts.entrySet()) {
if (walletRpc == entry.getValue()) {
found = true;
try {
unregisterPort(entry.getKey());
} catch (Exception e) {
throw new MoneroError(e);
}
break;
}
}
if (!found) throw new RuntimeException("MoneroWalletRpc instance not registered with a port");
}
}
if (!found) throw new RuntimeException("MoneroWalletRpc instance not associated with port");
// close wallet and stop process
walletRpc.close(save);
walletRpc.stopProcess();
}
private int registerPort() throws IOException {
synchronized (registeredPorts) {
// register next consecutive port
if (startPort != null) {
int port = startPort;
while (registeredPorts.containsKey(port)) port++;
registeredPorts.put(port, null);
return port;
}
// register next consecutive port
if (startPort != null) {
int port = startPort;
while (registeredPorts.containsKey(port)) port++;
registeredPorts.put(port, null);
return port;
}
// register auto-assigned port
else {
// register auto-assigned port
else {
int port = getLocalPort();
registeredPorts.put(port, null);
return port;
}
}
}
private void unregisterPort(int port) {
synchronized (registeredPorts) {
registeredPorts.remove(port);
}
}
private int getLocalPort() throws IOException {
ServerSocket socket = new ServerSocket(0); // use socket to get available port
int port = socket.getLocalPort();
socket.close();
registeredPorts.put(port, null);
return port;
}
}
private void unregisterPort(int port) {
registeredPorts.remove(port);
}
}

View file

@ -63,7 +63,7 @@ public class XmrWalletService {
private static final String MONERO_WALLET_RPC_USERNAME = "haveno_user";
private static final String MONERO_WALLET_RPC_DEFAULT_PASSWORD = "password"; // only used if account password is null
private static final String MONERO_WALLET_NAME = "haveno_XMR";
private static final long MONERO_WALLET_SYNC_RATE = 5000l;
private static final long MONERO_WALLET_SYNC_PERIOD = 5000l;
private final CoreAccountService accountService;
private final CoreMoneroConnectionsService connectionsService;
@ -154,61 +154,57 @@ public class XmrWalletService {
return accountService.getPassword() == null ? MONERO_WALLET_RPC_DEFAULT_PASSWORD : accountService.getPassword();
}
public boolean walletExists(String walletName) {
String path = walletDir.toString() + File.separator + walletName;
return new File(path + ".keys").exists();
}
public void closeWallet(MoneroWallet walletRpc, boolean save) {
log.info("{}.closeWallet({}, {})", getClass(), walletRpc.getPath(), save);
MONERO_WALLET_RPC_MANAGER.stopInstance((MoneroWalletRpc) walletRpc, save);
}
public void deleteWallet(String walletName) {
log.info("{}.deleteWallet({})", getClass(), walletName);
if (!walletExists(walletName)) throw new Error("Wallet does not exist at path: " + walletName);
String path = walletDir.toString() + File.separator + walletName;
if (!new File(path).delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".keys").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".address.txt").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
// WalletsSetup.deleteRollingBackup(walletName); // TODO (woodser): necessary to delete rolling backup?
public boolean multisigWalletExists(String tradeId) {
return walletExists("xmr_multisig_trade_" + tradeId);
}
// TODO (woodser): test retaking failed trade. create new multisig wallet or replace? cannot reuse
public synchronized MoneroWallet createMultisigWallet(String tradeId) {
log.info("{}.createMultisigWallet({})", getClass(), tradeId);
if (multisigWallets.containsKey(tradeId)) return multisigWallets.get(tradeId);
String path = "xmr_multisig_trade_" + tradeId;
MoneroWallet multisigWallet = null;
multisigWallet = createWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null); // auto-assign port
multisigWallets.put(tradeId, multisigWallet);
multisigWallet.startSyncing(5000l);
return multisigWallet;
}
public MoneroWallet getMultisigWallet(String tradeId) { // TODO (woodser): synchronize per wallet id
log.info("{}.getMultisigWallet({})", getClass(), tradeId);
if (multisigWallets.containsKey(tradeId)) return multisigWallets.get(tradeId);
String path = "xmr_multisig_trade_" + tradeId;
if (!walletExists(path)) return null;
MoneroWallet multisigWallet = openWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null);
multisigWallets.put(tradeId, multisigWallet);
multisigWallet.startSyncing(5000l); // TODO (woodser): use sync period from config. apps stall if too many multisig wallets and too short sync period
return multisigWallet;
}
public synchronized boolean deleteMultisigWallet(String tradeId) {
log.info("{}.deleteMultisigWallet({})", getClass(), tradeId);
String walletName = "xmr_multisig_trade_" + tradeId;
if (!walletExists(walletName)) return false;
try {
closeWallet(getMultisigWallet(tradeId), false);
} catch (Exception err) {
// multisig wallet may not be open
public MoneroWallet createMultisigWallet(String tradeId) {
log.info("{}.createMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getOpenTrade(tradeId).get();
synchronized (trade) {
if (multisigWallets.containsKey(trade.getId())) return multisigWallets.get(trade.getId());
String path = "xmr_multisig_trade_" + trade.getId();
MoneroWallet multisigWallet = createWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null); // auto-assign port
multisigWallets.put(trade.getId(), multisigWallet);
return multisigWallet;
}
}
// TODO (woodser): provide progress notifications during open?
public MoneroWallet getMultisigWallet(String tradeId) {
log.info("{}.getMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
if (multisigWallets.containsKey(trade.getId())) return multisigWallets.get(trade.getId());
String path = "xmr_multisig_trade_" + trade.getId();
if (!walletExists(path)) throw new RuntimeException("Multisig wallet does not exist for trade " + trade.getId());
MoneroWallet multisigWallet = openWallet(new MoneroWalletConfig().setPath(path).setPassword(getWalletPassword()), null);
multisigWallets.put(trade.getId(), multisigWallet);
return multisigWallet;
}
}
public void closeMultisigWallet(String tradeId) {
log.info("{}.closeMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
if (!multisigWallets.containsKey(trade.getId())) throw new RuntimeException("Multisig wallet to close was not previously opened for trade " + trade.getId());
MoneroWallet wallet = multisigWallets.remove(trade.getId());
closeWallet(wallet, true);
}
}
public boolean deleteMultisigWallet(String tradeId) {
log.info("{}.deleteMultisigWallet({})", getClass().getSimpleName(), tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
String walletName = "xmr_multisig_trade_" + tradeId;
if (!walletExists(walletName)) return false;
if (multisigWallets.containsKey(trade.getId())) closeMultisigWallet(tradeId);
deleteWallet(walletName);
return true;
}
deleteWallet(walletName);
multisigWallets.remove(tradeId);
return true;
}
public MoneroTxWallet createTx(List<MoneroDestination> destinations) {
@ -240,6 +236,11 @@ public class XmrWalletService {
setWalletDaemonConnections(newConnection);
});
}
private boolean walletExists(String walletName) {
String path = walletDir.toString() + File.separator + walletName;
return new File(path + ".keys").exists();
}
private void tryInitMainWallet() {
MoneroWalletConfig walletConfig = new MoneroWalletConfig().setPath(MONERO_WALLET_NAME).setPassword(getWalletPassword());
@ -288,7 +289,7 @@ public class XmrWalletService {
// create wallet
try {
walletRpc.createWallet(config);
walletRpc.startSyncing(MONERO_WALLET_SYNC_RATE);
walletRpc.startSyncing(MONERO_WALLET_SYNC_PERIOD);
return walletRpc;
} catch (Exception e) {
e.printStackTrace();
@ -305,7 +306,7 @@ public class XmrWalletService {
// open wallet
try {
walletRpc.openWallet(config);
walletRpc.startSyncing(MONERO_WALLET_SYNC_RATE);
walletRpc.startSyncing(MONERO_WALLET_SYNC_PERIOD);
return walletRpc;
} catch (Exception e) {
e.printStackTrace();
@ -370,7 +371,7 @@ public class XmrWalletService {
}
private void changeWalletPasswords(String oldPassword, String newPassword) {
List<String> tradeIds = tradeManager.getTrades().stream().map(Trade::getId).collect(Collectors.toList());
List<String> tradeIds = tradeManager.getOpenTrades().stream().map(Trade::getId).collect(Collectors.toList());
ExecutorService pool = Executors.newFixedThreadPool(Math.min(10, 1 + tradeIds.size()));
pool.submit(new Runnable() {
@Override
@ -404,7 +405,22 @@ public class XmrWalletService {
throw new RuntimeException(e);
}
}
private void closeWallet(MoneroWallet walletRpc, boolean save) {
log.info("{}.closeWallet({}, {})", getClass().getSimpleName(), walletRpc.getPath(), save);
MONERO_WALLET_RPC_MANAGER.stopInstance((MoneroWalletRpc) walletRpc, save);
}
private void deleteWallet(String walletName) {
log.info("{}.deleteWallet({})", getClass().getSimpleName(), walletName);
if (!walletExists(walletName)) throw new Error("Wallet does not exist at path: " + walletName);
String path = walletDir.toString() + File.separator + walletName;
if (!new File(path).delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".keys").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
if (!new File(path + ".address.txt").delete()) throw new RuntimeException("Failed to delete wallet file: " + path);
// WalletsSetup.deleteRollingBackup(walletName); // TODO (woodser): necessary to delete rolling backup?
}
private void closeAllWallets() {
// collect wallets to shutdown

View file

@ -413,7 +413,7 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
PlaceOfferProtocol placeOfferProtocol = new PlaceOfferProtocol(
model,
transaction -> {
// save reserve tx with open offer
OpenOffer openOffer = new OpenOffer(offer, triggerPrice, model.getReserveTx().getHash(), model.getReserveTx().getFullHex(), model.getReserveTx().getKey());
openOffers.add(openOffer);
@ -428,8 +428,10 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
},
errorMessageHandler
);
placeOfferProtocols.put(offer.getId(), placeOfferProtocol);
synchronized (placeOfferProtocols) {
placeOfferProtocols.put(offer.getId(), placeOfferProtocol);
}
placeOfferProtocol.placeOffer(); // TODO (woodser): if error placing offer (e.g. bad signature), remove protocol and unfreeze trade funds
}
@ -567,13 +569,13 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
}
private void onRemoved(@NotNull OpenOffer openOffer, ResultHandler resultHandler, Offer offer) {
for (String frozenKeyImage : offer.getOfferPayload().getReserveTxKeyImages()) xmrWalletService.getWallet().thawOutput(frozenKeyImage);
offer.setState(Offer.State.REMOVED);
openOffer.setState(OpenOffer.State.CANCELED);
openOffers.remove(openOffer);
closedTradableManager.add(openOffer);
log.info("onRemoved offerId={}", offer.getId());
btcWalletService.resetAddressEntriesForOpenOffer(offer.getId());
for (String frozenKeyImage : offer.getOfferPayload().getReserveTxKeyImages()) xmrWalletService.getWallet().thawOutput(frozenKeyImage);
requestPersistence();
resultHandler.handleResult();
}
@ -725,14 +727,17 @@ public class OpenOfferManager implements PeerManager.Listener, DecryptedDirectMe
private void handleSignOfferResponse(SignOfferResponse response, NodeAddress peer) {
log.info("Received SignOfferResponse from {} with offerId {} and uid {}",
peer, response.getOfferId(), response.getUid());
// get previously created protocol
PlaceOfferProtocol protocol = placeOfferProtocols.get(response.getOfferId());
if (protocol == null) {
log.warn("No place offer protocol created for offer " + response.getOfferId());
return;
PlaceOfferProtocol protocol;
synchronized (placeOfferProtocols) {
protocol = placeOfferProtocols.get(response.getOfferId());
if (protocol == null) {
log.warn("No place offer protocol created for offer " + response.getOfferId());
return;
}
}
// handle response
protocol.handleSignOfferResponse(response, peer);
}

View file

@ -114,7 +114,7 @@ public class OfferAvailabilityProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
private void handleOfferAvailabilityResponse(OfferAvailabilityResponse message, NodeAddress peersNodeAddress) {
log.info("Received handleOfferAvailabilityResponse from {} with offerId {} and uid {}",
log.info("Received OfferAvailabilityResponse from {} with offerId {} and uid {}",
peersNodeAddress, message.getOfferId(), message.getUid());
stopTimeout();

View file

@ -45,27 +45,26 @@ public class MakerReservesTradeFunds extends Task<PlaceOfferModel> {
try {
runInterceptHook();
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger makerFee = ParsingUtils.coinToAtomicUnits(offer.getMakerFee());
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(model.getReservedFundsForOffer());
MoneroTxWallet reserveTx = TradeUtils.createReserveTx(model.getXmrWalletService(), offer.getId(), makerFee, returnAddress, depositAmount);
// freeze reserved outputs
// TODO (woodser): synchronize to handle potential race condition where concurrent trades freeze each other's outputs
List<String> reservedKeyImages = new ArrayList<String>();
MoneroWallet wallet = model.getXmrWalletService().getWallet();
for (MoneroOutput input : reserveTx.getInputs()) {
reservedKeyImages.add(input.getKeyImage().getHex());
wallet.freezeOutput(input.getKeyImage().getHex());
// synchronize on wallet to reserve key images
synchronized (model.getXmrWalletService().getWallet()) {
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger makerFee = ParsingUtils.coinToAtomicUnits(offer.getMakerFee());
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(model.getReservedFundsForOffer());
MoneroTxWallet reserveTx = TradeUtils.reserveTradeFunds(model.getXmrWalletService(), offer.getId(), makerFee, returnAddress, depositAmount);
// collect reserved key images // TODO (woodser): switch to proof of reserve?
List<String> reservedKeyImages = new ArrayList<String>();
for (MoneroOutput input : reserveTx.getInputs()) reservedKeyImages.add(input.getKeyImage().getHex());
// save offer state
// TODO (woodser): persist
model.setReserveTx(reserveTx);
offer.getOfferPayload().setReserveTxKeyImages(reservedKeyImages);
offer.setOfferFeePaymentTxId(reserveTx.getHash()); // TODO (woodser): don't use this field
complete();
}
// save offer state
// TODO (woodser): persist
model.setReserveTx(reserveTx);
offer.getOfferPayload().setReserveTxKeyImages(reservedKeyImages);
offer.setOfferFeePaymentTxId(reserveTx.getHash()); // TODO (woodser): don't use this field
complete();
} catch (Throwable t) {
offer.setErrorMessage("An error occurred.\n" +
"Error message:\n"

View file

@ -84,6 +84,7 @@ public class MakerSendsSignOfferRequest extends Task<PlaceOfferModel> {
if (!sender.equals(arbitrator.getNodeAddress())) return;
AckMessage ackMessage = (AckMessage) decryptedMessageWithPubKey.getNetworkEnvelope();
if (!ackMessage.getSourceMsgClassName().equals(SignOfferRequest.class.getSimpleName())) return;
if (!ackMessage.getSourceUid().equals(request.getUid())) return;
if (ackMessage.isSuccess()) {
offer.setState(Offer.State.OFFER_FEE_RESERVED);
model.getP2PService().removeDecryptedDirectMessageListener(this);

View file

@ -114,7 +114,7 @@ public class TakeOfferModel implements Model {
this.clearModel();
this.offer = offer;
this.paymentAccount = paymentAccount;
this.addressEntry = btcWalletService.getOrCreateAddressEntry(offer.getId(), OFFER_FUNDING);
this.addressEntry = btcWalletService.getOrCreateAddressEntry(offer.getId(), OFFER_FUNDING); // TODO (woodser): replace with xmr or remove
validateModelInputs();
this.useSavingsWallet = useSavingsWallet;

View file

@ -17,6 +17,7 @@
package bisq.core.presentation;
import bisq.common.UserThread;
import bisq.core.trade.TradeManager;
import javax.inject.Inject;
@ -38,10 +39,12 @@ public class TradePresentation {
public TradePresentation(TradeManager tradeManager) {
tradeManager.getNumPendingTrades().addListener((observable, oldValue, newValue) -> {
long numPendingTrades = (long) newValue;
if (numPendingTrades > 0)
this.numPendingTrades.set(String.valueOf(numPendingTrades));
UserThread.execute(() -> {
if (numPendingTrades > 0)
this.numPendingTrades.set(String.valueOf(numPendingTrades));
showPendingTradesNotification.set(numPendingTrades > 0);
showPendingTradesNotification.set(numPendingTrades > 0);
});
});
}
}

View file

@ -128,11 +128,6 @@ public class FeeService {
}
public void requestFees(@Nullable Runnable resultHandler, @Nullable FaultHandler faultHandler) {
if (feeProvider.getHttpClient().hasPendingRequest()) {
log.warn("We have a pending request open. We ignore that request. httpClient {}", feeProvider.getHttpClient());
return;
}
long now = Instant.now().getEpochSecond();
// We all requests only each 2 minutes
if (now - lastRequest > MIN_PAUSE_BETWEEN_REQUESTS_IN_MIN * 60) {

View file

@ -51,6 +51,7 @@ public abstract class SupportManager {
protected final CoreMoneroConnectionsService connectionService;
protected final CoreNotificationService notificationService;
protected final Map<String, Timer> delayMsgMap = new HashMap<>();
private final Object lock = new Object();
private final CopyOnWriteArraySet<DecryptedMessageWithPubKey> decryptedMailboxMessageWithPubKeys = new CopyOnWriteArraySet<>();
private final CopyOnWriteArraySet<DecryptedMessageWithPubKey> decryptedDirectMessageWithPubKeys = new CopyOnWriteArraySet<>();
protected final MailboxMessageService mailboxMessageService;
@ -69,16 +70,24 @@ public abstract class SupportManager {
// We get first the message handler called then the onBootstrapped
p2PService.addDecryptedDirectMessageListener((decryptedMessageWithPubKey, senderAddress) -> {
// As decryptedDirectMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was
// already stored
decryptedDirectMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
if (isReady()) applyDirectMessage(decryptedMessageWithPubKey);
else {
synchronized (lock) {
// As decryptedDirectMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was already stored
decryptedDirectMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
}
}
});
mailboxMessageService.addDecryptedMailboxListener((decryptedMessageWithPubKey, senderAddress) -> {
// As decryptedMailboxMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was
// already stored
decryptedMailboxMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
if (isReady()) applyMailboxMessage(decryptedMessageWithPubKey);
else {
synchronized (lock) {
// As decryptedMailboxMessageWithPubKeys is a CopyOnWriteArraySet we do not need to check if it was already stored
decryptedDirectMessageWithPubKeys.add(decryptedMessageWithPubKey);
tryApplyMessages();
}
}
});
}
@ -138,6 +147,7 @@ public abstract class SupportManager {
protected void onChatMessage(ChatMessage chatMessage) {
final String tradeId = chatMessage.getTradeId();
final String uid = chatMessage.getUid();
log.info("Received {} from peer {}. tradeId={}, uid={}", chatMessage.getClass().getSimpleName(), chatMessage.getSenderNodeAddress(), tradeId, uid);
boolean channelOpen = channelOpen(chatMessage);
if (!channelOpen) {
log.debug("We got a chatMessage but we don't have a matching chat. TradeId = " + tradeId);
@ -293,6 +303,11 @@ public abstract class SupportManager {
}
}
///////////////////////////////////////////////////////////////////////////////////////////
// Private
///////////////////////////////////////////////////////////////////////////////////////////
private boolean isReady() {
return allServicesInitialized &&
p2PService.isBootstrapped() &&
@ -306,29 +321,34 @@ public abstract class SupportManager {
///////////////////////////////////////////////////////////////////////////////////////////
private void applyMessages() {
decryptedDirectMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
if (networkEnvelope instanceof SupportMessage) {
onSupportMessage((SupportMessage) networkEnvelope);
} else if (networkEnvelope instanceof AckMessage) {
onAckMessage((AckMessage) networkEnvelope);
}
});
decryptedDirectMessageWithPubKeys.clear();
synchronized (lock) {
decryptedDirectMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> applyDirectMessage(decryptedMessageWithPubKey));
decryptedDirectMessageWithPubKeys.clear();
decryptedMailboxMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> applyMailboxMessage(decryptedMessageWithPubKey));
decryptedMailboxMessageWithPubKeys.clear();
}
}
decryptedMailboxMessageWithPubKeys.forEach(decryptedMessageWithPubKey -> {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
log.trace("## decryptedMessageWithPubKey message={}", networkEnvelope.getClass().getSimpleName());
if (networkEnvelope instanceof SupportMessage) {
SupportMessage supportMessage = (SupportMessage) networkEnvelope;
onSupportMessage(supportMessage);
mailboxMessageService.removeMailboxMsg(supportMessage);
} else if (networkEnvelope instanceof AckMessage) {
AckMessage ackMessage = (AckMessage) networkEnvelope;
onAckMessage(ackMessage);
mailboxMessageService.removeMailboxMsg(ackMessage);
}
});
decryptedMailboxMessageWithPubKeys.clear();
private void applyDirectMessage(DecryptedMessageWithPubKey decryptedMessageWithPubKey) {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
if (networkEnvelope instanceof SupportMessage) {
onSupportMessage((SupportMessage) networkEnvelope);
} else if (networkEnvelope instanceof AckMessage) {
onAckMessage((AckMessage) networkEnvelope);
}
}
private void applyMailboxMessage(DecryptedMessageWithPubKey decryptedMessageWithPubKey) {
NetworkEnvelope networkEnvelope = decryptedMessageWithPubKey.getNetworkEnvelope();
log.trace("## decryptedMessageWithPubKey message={}", networkEnvelope.getClass().getSimpleName());
if (networkEnvelope instanceof SupportMessage) {
SupportMessage supportMessage = (SupportMessage) networkEnvelope;
onSupportMessage(supportMessage);
mailboxMessageService.removeMailboxMsg(supportMessage);
} else if (networkEnvelope instanceof AckMessage) {
AckMessage ackMessage = (AckMessage) networkEnvelope;
onAckMessage(ackMessage);
mailboxMessageService.removeMailboxMsg(ackMessage);
}
}
}

View file

@ -23,7 +23,7 @@ import bisq.core.proto.CoreProtoResolver;
import bisq.core.support.SupportType;
import bisq.core.support.messages.ChatMessage;
import bisq.core.trade.Contract;
import bisq.common.UserThread;
import bisq.common.crypto.PubKeyRing;
import bisq.common.proto.ProtoUtil;
import bisq.common.proto.network.NetworkPayload;
@ -365,7 +365,7 @@ public final class Dispute implements NetworkPayload, PersistablePayload {
public void setState(Dispute.State disputeState) {
this.disputeState = disputeState;
this.isClosedProperty.set(disputeState == State.CLOSED);
UserThread.execute(() -> this.isClosedProperty.set(disputeState == State.CLOSED));
}
public void setDisputeResult(DisputeResult disputeResult) {

View file

@ -302,67 +302,81 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
return;
}
String errorMessage = null;
Dispute dispute = openNewDisputeMessage.getDispute();
log.info("{}.onOpenNewDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), dispute.getTradeId(), dispute.getId());
// Disputes from clients < 1.2.0 always have support type ARBITRATION in dispute as the field didn't exist before
dispute.setSupportType(openNewDisputeMessage.getSupportType());
// disputes from clients < 1.6.0 have state not set as the field didn't exist before
dispute.setState(Dispute.State.NEW); // this can be removed a few months after 1.6.0 release
Trade trade = tradeManager.getTrade(dispute.getTradeId());
if (trade == null) {
log.warn("Dispute trade {} does not exist", dispute.getTradeId());
return;
}
Contract contract = dispute.getContract();
addPriceInfoMessage(dispute, 0);
synchronized (trade) {
PubKeyRing peersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
if (isAgent(dispute)) {
String errorMessage = null;
Contract contract = dispute.getContract();
addPriceInfoMessage(dispute, 0);
// update arbitrator's multisig wallet
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
multisigWallet.importMultisigHex(Arrays.asList(openNewDisputeMessage.getUpdatedMultisigHex()));
System.out.println("Arbitrator multisig wallet updated on new dispute message, current txs:");
System.out.println(multisigWallet.getTxs());
PubKeyRing peersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
if (isAgent(dispute)) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
sendPeerOpenedDisputeMessage(dispute, contract, peersPubKeyRing);
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
// update arbitrator's multisig wallet
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
multisigWallet.importMultisigHex(Arrays.asList(openNewDisputeMessage.getUpdatedMultisigHex()));
log.info("Arbitrator multisig wallet updated on new dispute message for trade " + dispute.getTradeId());
// close multisig wallet
xmrWalletService.closeMultisigWallet(dispute.getTradeId());
synchronized (disputeList) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
sendPeerOpenedDisputeMessage(dispute, contract, peersPubKeyRing);
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
}
} else {
errorMessage = "We got a dispute msg that we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
}
}
} else {
errorMessage = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
errorMessage = "Trader received openNewDisputeMessage. That must never happen.";
log.error(errorMessage);
}
} else {
errorMessage = "Trader received openNewDisputeMessage. That must never happen.";
log.error(errorMessage);
}
// We use the ChatMessage not the openNewDisputeMessage for the ACK
ObservableList<ChatMessage> messages = openNewDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
PubKeyRing sendersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
sendAckMessage(msg, sendersPubKeyRing, errorMessage == null, errorMessage);
}
// We use the ChatMessage not the openNewDisputeMessage for the ACK
ObservableList<ChatMessage> messages = openNewDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
PubKeyRing sendersPubKeyRing = dispute.isDisputeOpenerIsBuyer() ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
sendAckMessage(msg, sendersPubKeyRing, errorMessage == null, errorMessage);
}
addMediationResultMessage(dispute);
addMediationResultMessage(dispute);
try {
TradeDataValidation.validatePaymentAccountPayloads(dispute);
TradeDataValidation.validateDonationAddress(dispute.getDonationAddressOfDelayedPayoutTx());
//TradeDataValidation.testIfDisputeTriesReplay(dispute, disputeList.getList()); // TODO (woodser): disabled for xmr, needed?
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getBuyerNodeAddress(), config);
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getSellerNodeAddress(), config);
} catch (TradeDataValidation.AddressException |
TradeDataValidation.NodeAddressException |
TradeDataValidation.InvalidPaymentAccountPayloadException e) {
log.error(e.toString());
validationExceptions.add(e);
try {
TradeDataValidation.validatePaymentAccountPayloads(dispute);
TradeDataValidation.validateDonationAddress(dispute.getDonationAddressOfDelayedPayoutTx());
//TradeDataValidation.testIfDisputeTriesReplay(dispute, disputeList.getList()); // TODO (woodser): disabled for xmr, needed?
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getBuyerNodeAddress(), config);
TradeDataValidation.validateNodeAddress(dispute, dispute.getContract().getSellerNodeAddress(), config);
} catch (TradeDataValidation.AddressException |
TradeDataValidation.NodeAddressException |
TradeDataValidation.InvalidPaymentAccountPayloadException e) {
log.error(e.toString());
validationExceptions.add(e);
}
requestPersistence();
}
requestPersistence();
}
// Not-dispute-requester receives that msg from dispute agent
@ -375,44 +389,49 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
String errorMessage = null;
Dispute dispute = peerOpenedDisputeMessage.getDispute();
log.info("{}.onPeerOpenedDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), dispute.getTradeId(), dispute.getId());
Optional<Trade> optionalTrade = tradeManager.getTradeById(dispute.getTradeId());
Optional<Trade> optionalTrade = tradeManager.getOpenTrade(dispute.getTradeId());
if (!optionalTrade.isPresent()) {
return;
}
Trade trade = optionalTrade.get();
if (!isAgent(dispute)) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
trade.setDisputeState(getDisputeStateStartedByPeer());
tradeManager.requestPersistence();
errorMessage = null;
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
synchronized (trade) {
if (!isAgent(dispute)) {
synchronized (disputeList) {
if (!disputeList.contains(dispute)) {
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent()) {
disputeList.add(dispute);
trade.setDisputeState(getDisputeStateStartedByPeer());
tradeManager.requestPersistence();
errorMessage = null;
} else {
// valid case if both have opened a dispute and agent was not online.
log.debug("We got a dispute already open for that trade and trading peer. TradeId = {}",
dispute.getTradeId());
}
} else {
errorMessage = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
}
}
} else {
errorMessage = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(errorMessage);
errorMessage = "Arbitrator received peerOpenedDisputeMessage. That must never happen.";
log.error(errorMessage);
}
} else {
errorMessage = "Arbitrator received peerOpenedDisputeMessage. That must never happen.";
log.error(errorMessage);
}
// We use the ChatMessage not the peerOpenedDisputeMessage for the ACK
ObservableList<ChatMessage> messages = peerOpenedDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
sendAckMessage(msg, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
}
// We use the ChatMessage not the peerOpenedDisputeMessage for the ACK
ObservableList<ChatMessage> messages = peerOpenedDisputeMessage.getDispute().getChatMessages();
if (!messages.isEmpty()) {
ChatMessage msg = messages.get(0);
sendAckMessage(msg, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
}
sendAckMessage(peerOpenedDisputeMessage, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
requestPersistence();
sendAckMessage(peerOpenedDisputeMessage, dispute.getAgentPubKeyRing(), errorMessage == null, errorMessage);
requestPersistence();
}
}
@ -425,107 +444,112 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
String updatedMultisigHex,
ResultHandler resultHandler,
FaultHandler faultHandler) {
log.info("{}.sendOpenNewDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), dispute.getTradeId(), dispute.getId());
T disputeList = getDisputeList();
if (disputeList == null) {
log.warn("disputes is null");
return;
}
if (disputeList.contains(dispute)) {
String msg = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
return;
}
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent() || reOpen) {
String disputeInfo = getDisputeInfo(dispute);
String sysMsg = dispute.isSupportTicket() ?
Res.get("support.youOpenedTicket", disputeInfo, Version.VERSION)
: Res.get("support.youOpenedDispute", disputeInfo, Version.VERSION);
ChatMessage chatMessage = new ChatMessage(
getSupportType(),
dispute.getTradeId(),
pubKeyRing.hashCode(),
false,
Res.get("support.systemMsg", sysMsg),
p2PService.getAddress());
chatMessage.setSystemMessage(true);
dispute.addAndPersistChatMessage(chatMessage);
if (!reOpen) {
disputeList.add(dispute);
synchronized (disputeList) {
if (disputeList.contains(dispute)) {
String msg = "We got a dispute msg what we have already stored. TradeId = " + dispute.getTradeId() + ", DisputeId = " + dispute.getId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
return;
}
NodeAddress agentNodeAddress = getAgentNodeAddress(dispute);
OpenNewDisputeMessage openNewDisputeMessage = new OpenNewDisputeMessage(dispute,
p2PService.getAddress(),
UUID.randomUUID().toString(),
getSupportType(),
updatedMultisigHex);
log.info("Send {} to peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
mailboxMessageService.sendEncryptedMailboxMessage(agentNodeAddress,
dispute.getAgentPubKeyRing(),
openNewDisputeMessage,
new SendMailboxMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
Optional<Dispute> storedDisputeOptional = findDispute(dispute);
if (!storedDisputeOptional.isPresent() || reOpen) {
String disputeInfo = getDisputeInfo(dispute);
String sysMsg = dispute.isSupportTicket() ?
Res.get("support.youOpenedTicket", disputeInfo, Version.VERSION)
: Res.get("support.youOpenedDispute", disputeInfo, Version.VERSION);
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setArrived(true);
requestPersistence();
resultHandler.handleResult();
ChatMessage chatMessage = new ChatMessage(
getSupportType(),
dispute.getTradeId(),
pubKeyRing.hashCode(),
false,
Res.get("support.systemMsg", sysMsg),
p2PService.getAddress());
chatMessage.setSystemMessage(true);
dispute.addAndPersistChatMessage(chatMessage);
if (!reOpen) {
disputeList.add(dispute);
}
NodeAddress agentNodeAddress = getAgentNodeAddress(dispute);
OpenNewDisputeMessage openNewDisputeMessage = new OpenNewDisputeMessage(dispute,
p2PService.getAddress(),
UUID.randomUUID().toString(),
getSupportType(),
updatedMultisigHex);
log.info("Send {} to peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
mailboxMessageService.sendEncryptedMailboxMessage(agentNodeAddress,
dispute.getAgentPubKeyRing(),
openNewDisputeMessage,
new SendMailboxMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setArrived(true);
requestPersistence();
resultHandler.handleResult();
}
@Override
public void onStoredInMailbox() {
log.info("{} stored in mailbox for peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setStoredInMailbox(true);
requestPersistence();
resultHandler.handleResult();
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}, errorMessage={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid(), errorMessage);
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setSendMessageError(errorMessage);
requestPersistence();
faultHandler.handleFault("Sending dispute message failed: " +
errorMessage, new DisputeMessageDeliveryFailedException());
}
}
@Override
public void onStoredInMailbox() {
log.info("{} stored in mailbox for peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid());
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setStoredInMailbox(true);
requestPersistence();
resultHandler.handleResult();
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, openNewDisputeMessage.uid={}, " +
"chatMessage.uid={}, errorMessage={}",
openNewDisputeMessage.getClass().getSimpleName(), agentNodeAddress,
openNewDisputeMessage.getTradeId(), openNewDisputeMessage.getUid(),
chatMessage.getUid(), errorMessage);
// We use the chatMessage wrapped inside the openNewDisputeMessage for
// the state, as that is displayed to the user and we only persist that msg
chatMessage.setSendMessageError(errorMessage);
requestPersistence();
faultHandler.handleFault("Sending dispute message failed: " +
errorMessage, new DisputeMessageDeliveryFailedException());
}
}
);
} else {
String msg = "We got a dispute already open for that trade and trading peer.\n" +
"TradeId = " + dispute.getTradeId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
);
} else {
String msg = "We got a dispute already open for that trade and trading peer.\n" +
"TradeId = " + dispute.getTradeId();
log.warn(msg);
faultHandler.handleFault(msg, new DisputeAlreadyOpenException());
}
}
requestPersistence();
}
@ -533,6 +557,7 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
private void sendPeerOpenedDisputeMessage(Dispute disputeFromOpener,
Contract contractFromOpener,
PubKeyRing pubKeyRing) {
log.info("{}.sendPeerOpenedDisputeMessage() with trade {}, dispute {}", getClass().getSimpleName(), disputeFromOpener.getTradeId(), disputeFromOpener.getId());
// We delay a bit for sending the message to the peer to allow that a openDispute message from the peer is
// being used as the valid msg. If dispute agent was offline and both peer requested we want to see the correct
// message and not skip the system message of the peer as it would be the case if we have created the system msg
@ -604,7 +629,9 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
addPriceInfoMessage(dispute, 0);
disputeList.add(dispute);
synchronized (disputeList) {
disputeList.add(dispute);
}
// We mirrored dispute already!
Contract contract = dispute.getContract();
@ -826,9 +853,9 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
}
public Optional<Trade> findTrade(Dispute dispute) {
Optional<Trade> retVal = tradeManager.getTradeById(dispute.getTradeId());
Optional<Trade> retVal = tradeManager.getOpenTrade(dispute.getTradeId());
if (!retVal.isPresent()) {
retVal = closedTradableManager.getClosedTrades().stream().filter(e -> e.getId().equals(dispute.getTradeId())).findFirst();
retVal = tradeManager.getClosedTrade(dispute.getTradeId());
}
return retVal;
}

View file

@ -120,8 +120,8 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
@Override
public void onSupportMessage(SupportMessage message) {
if (canProcessMessage(message)) {
log.info("Received {} with tradeId {} and uid {}",
message.getClass().getSimpleName(), message.getTradeId(), message.getUid());
log.info("Received {} from {} with tradeId {} and uid {}",
message.getClass().getSimpleName(), message.getSenderNodeAddress(), message.getTradeId(), message.getUid());
if (message instanceof OpenNewDisputeMessage) {
onOpenNewDisputeMessage((OpenNewDisputeMessage) message);
@ -195,9 +195,10 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
DisputeResult disputeResult = disputeResultMessage.getDisputeResult();
ChatMessage chatMessage = disputeResult.getChatMessage();
checkNotNull(chatMessage, "chatMessage must not be null");
Optional<Trade> tradeOptional = tradeManager.getTradeById(disputeResult.getTradeId());
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(disputeResult.getTradeId());
String tradeId = disputeResult.getTradeId();
log.info("{}.onDisputeResultMessage() for trade {}", getClass().getSimpleName(), disputeResult.getTradeId());
Optional<Dispute> disputeOptional = findDispute(disputeResult);
String uid = disputeResultMessage.getUid();
if (!disputeOptional.isPresent()) {
@ -239,7 +240,6 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
String errorMessage = null;
boolean success = true;
boolean requestUpdatedPayoutTx = false;
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
Contract contract = dispute.getContract();
try {
// We need to avoid publishing the tx from both traders as it would create problems with zero confirmation withdrawals
@ -269,7 +269,7 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
} else {
Optional<Tradable> tradableOptional = closedTradableManager.getTradableById(tradeId);
if (tradableOptional.isPresent() && tradableOptional.get() instanceof Trade) {
payoutTx = ((Trade) tradableOptional.get()).getPayoutTx();
payoutTx = ((Trade) tradableOptional.get()).getPayoutTx(); // TODO (woodser): payout tx is transient so won't exist after restart?
}
}
@ -334,7 +334,14 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
sendAckMessage(chatMessage, dispute.getAgentPubKeyRing(), success, errorMessage);
// If dispute opener's peer is co-signer, send updated multisig hex to arbitrator to receive updated payout tx
if (requestUpdatedPayoutTx) sendArbitratorPayoutTxRequest(multisigWallet.getMultisigHex(), dispute, contract);
if (requestUpdatedPayoutTx) {
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId); // TODO (woodser): this is closed after sending ArbitratorPayoutTxRequest to arbitrator which opens and syncs multisig and responds with signed dispute tx. more efficient way is to include with arbitrator-signed dispute tx with dispute result?
sendArbitratorPayoutTxRequest(multisigWallet.getMultisigHex(), dispute, contract);
xmrWalletService.closeMultisigWallet(tradeId);
}
}
}
requestPersistence();
@ -344,136 +351,218 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
private void onDisputedPayoutTxMessage(PeerPublishedDisputePayoutTxMessage peerPublishedDisputePayoutTxMessage) {
String uid = peerPublishedDisputePayoutTxMessage.getUid();
String tradeId = peerPublishedDisputePayoutTxMessage.getTradeId();
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) {
log.debug("We got a peerPublishedPayoutTxMessage but we don't have a matching dispute. TradeId = " + tradeId);
if (!delayMsgMap.containsKey(uid)) {
// We delay 3 sec. to be sure the close msg gets added first
Timer timer = UserThread.runAfter(() -> onDisputedPayoutTxMessage(peerPublishedDisputePayoutTxMessage), 3);
delayMsgMap.put(uid, timer);
} else {
log.warn("We got a peerPublishedPayoutTxMessage after we already repeated to apply the message after a delay. " +
"That should never happen. TradeId = " + tradeId);
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
// get dispute and trade
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) {
log.debug("We got a peerPublishedPayoutTxMessage but we don't have a matching dispute. TradeId = " + tradeId);
if (!delayMsgMap.containsKey(uid)) {
// We delay 3 sec. to be sure the close msg gets added first
Timer timer = UserThread.runAfter(() -> onDisputedPayoutTxMessage(peerPublishedDisputePayoutTxMessage), 3);
delayMsgMap.put(uid, timer);
} else {
log.warn("We got a peerPublishedPayoutTxMessage after we already repeated to apply the message after a delay. " +
"That should never happen. TradeId = " + tradeId);
}
return;
}
return;
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
boolean isBuyer = pubKeyRing.equals(contract.getBuyerPubKeyRing());
PubKeyRing peersPubKeyRing = isBuyer ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
cleanupRetryMap(uid);
// update multisig wallet
if (xmrWalletService.multisigWalletExists(tradeId)) { // TODO: multisig wallet may already be deleted if peer completed trade with arbitrator. refactor trade completion?
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
multisigWallet.importMultisigHex(Arrays.asList(peerPublishedDisputePayoutTxMessage.getUpdatedMultisigHex()));
MoneroTxWallet parsedPayoutTx = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(peerPublishedDisputePayoutTxMessage.getPayoutTxHex())).getTxs().get(0);
xmrWalletService.closeMultisigWallet(tradeId);
dispute.setDisputePayoutTxId(parsedPayoutTx.getHash());
XmrWalletService.printTxs("Disputed payoutTx received from peer", parsedPayoutTx);
}
// System.out.println("LOSER'S VIEW OF MULTISIG WALLET (SHOULD INCLUDE PAYOUT TX):\n" + multisigWallet.getTxs());
// if (multisigWallet.getTxs().size() != 3) throw new RuntimeException("Loser's multisig wallet does not include record of payout tx");
// Transaction committedDisputePayoutTx = WalletService.maybeAddNetworkTxToWallet(peerPublishedDisputePayoutTxMessage.getTransaction(), btcWalletService.getWallet());
// We can only send the ack msg if we have the peersPubKeyRing which requires the dispute
sendAckMessage(peerPublishedDisputePayoutTxMessage, peersPubKeyRing, true, null);
requestPersistence();
}
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
boolean isBuyer = pubKeyRing.equals(contract.getBuyerPubKeyRing());
PubKeyRing peersPubKeyRing = isBuyer ? contract.getSellerPubKeyRing() : contract.getBuyerPubKeyRing();
cleanupRetryMap(uid);
// update multisig wallet
// TODO: multisig wallet may already be deleted if peer completed trade with arbitrator. refactor trade completion?
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
if (multisigWallet != null) {
multisigWallet.importMultisigHex(Arrays.asList(peerPublishedDisputePayoutTxMessage.getUpdatedMultisigHex()));
MoneroTxWallet parsedPayoutTx = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(peerPublishedDisputePayoutTxMessage.getPayoutTxHex())).getTxs().get(0);
dispute.setDisputePayoutTxId(parsedPayoutTx.getHash());
XmrWalletService.printTxs("Disputed payoutTx received from peer", parsedPayoutTx);
}
// System.out.println("LOSER'S VIEW OF MULTISIG WALLET (SHOULD INCLUDE PAYOUT TX):\n" + multisigWallet.getTxs());
// if (multisigWallet.getTxs().size() != 3) throw new RuntimeException("Loser's multisig wallet does not include record of payout tx");
// Transaction committedDisputePayoutTx = WalletService.maybeAddNetworkTxToWallet(peerPublishedDisputePayoutTxMessage.getTransaction(), btcWalletService.getWallet());
// We can only send the ack msg if we have the peersPubKeyRing which requires the dispute
sendAckMessage(peerPublishedDisputePayoutTxMessage, peersPubKeyRing, true, null);
requestPersistence();
}
// Arbitrator receives updated multisig hex from dispute opener's peer (if co-signer) and returns updated payout tx to be signed and published
private void onArbitratorPayoutTxRequest(ArbitratorPayoutTxRequest request) {
log.info("{}.onArbitratorPayoutTxRequest()", getClass().getSimpleName());
String tradeId = request.getTradeId();
Dispute dispute = findDispute(request.getDispute().getTradeId(), request.getDispute().getTraderId()).get();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
Contract contract = dispute.getContract();
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
Dispute dispute = findDispute(request.getDispute().getTradeId(), request.getDispute().getTraderId()).get();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
Contract contract = dispute.getContract();
// verify sender is co-signer and receiver is arbitrator
System.out.println("Any of these null???"); // TODO (woodser): NPE if dispute opener's peer-as-cosigner's ticket is closed first
System.out.println(disputeResult);
System.out.println(disputeResult.getWinner());
System.out.println(contract.getBuyerNodeAddress());
System.out.println(contract.getSellerNodeAddress());
boolean senderIsWinner = (disputeResult.getWinner() == Winner.BUYER && contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress())) || (disputeResult.getWinner() == Winner.SELLER && contract.getSellerNodeAddress().equals(request.getSenderNodeAddress()));
boolean senderIsCosigner = senderIsWinner || disputeResult.isLoserPublisher();
boolean receiverIsArbitrator = pubKeyRing.equals(dispute.getAgentPubKeyRing());
// verify sender is co-signer and receiver is arbitrator
System.out.println("Any of these null???"); // TODO (woodser): NPE if dispute opener's peer-as-cosigner's ticket is closed first
System.out.println(disputeResult);
System.out.println(disputeResult.getWinner());
System.out.println(contract.getBuyerNodeAddress());
System.out.println(contract.getSellerNodeAddress());
boolean senderIsWinner = (disputeResult.getWinner() == Winner.BUYER && contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress())) || (disputeResult.getWinner() == Winner.SELLER && contract.getSellerNodeAddress().equals(request.getSenderNodeAddress()));
boolean senderIsCosigner = senderIsWinner || disputeResult.isLoserPublisher();
boolean receiverIsArbitrator = pubKeyRing.equals(dispute.getAgentPubKeyRing());
System.out.println("TESTING PUB KEY RINGS");
System.out.println(pubKeyRing);
System.out.println(dispute.getAgentPubKeyRing());
System.out.println("Receiver is arbitrator: " + receiverIsArbitrator);
System.out.println("TESTING PUB KEY RINGS");
System.out.println(pubKeyRing);
System.out.println(dispute.getAgentPubKeyRing());
System.out.println("Receiver is arbitrator: " + receiverIsArbitrator);
if (!senderIsCosigner) {
log.warn("Received ArbitratorPayoutTxRequest but sender is not co-signer for trade id " + tradeId);
return;
}
if (!receiverIsArbitrator) {
log.warn("Received ArbitratorPayoutTxRequest but receiver is not arbitrator for trade id " + tradeId);
return;
}
// update arbitrator's multisig wallet with co-signer's multisig hex
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
try {
multisigWallet.importMultisigHex(Arrays.asList(request.getUpdatedMultisigHex()));
} catch (Exception e) {
log.warn("Failed to import multisig hex from payout co-signer for trade id " + tradeId);
return;
}
// create updated payout tx
MoneroTxWallet payoutTx = arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Arbitrator created updated payout tx for co-signer!!!");
System.out.println(payoutTx);
// send updated payout tx to sender
PubKeyRing senderPubKeyRing = contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress()) ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
ArbitratorPayoutTxResponse response = new ArbitratorPayoutTxResponse(
tradeId,
p2PService.getAddress(),
UUID.randomUUID().toString(),
SupportType.ARBITRATION,
payoutTx.getTxSet().getMultisigTxHex());
log.info("Send {} to peer {}. tradeId={}, uid={}", response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
p2PService.sendEncryptedDirectMessage(request.getSenderNodeAddress(),
senderPubKeyRing,
response,
new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, uid={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, uid={}, errorMessage={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid(), errorMessage);
}
if (!senderIsCosigner) {
log.warn("Received ArbitratorPayoutTxRequest but sender is not co-signer for trade id " + tradeId);
return;
}
);
if (!receiverIsArbitrator) {
log.warn("Received ArbitratorPayoutTxRequest but receiver is not arbitrator for trade id " + tradeId);
return;
}
// update arbitrator's multisig wallet with co-signer's multisig hex
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(dispute.getTradeId());
try {
multisigWallet.importMultisigHex(Arrays.asList(request.getUpdatedMultisigHex()));
} catch (Exception e) {
log.warn("Failed to import multisig hex from payout co-signer for trade id " + tradeId);
return;
}
// create updated payout tx
MoneroTxWallet payoutTx = arbitratorCreatesDisputedPayoutTx(contract, dispute, disputeResult, multisigWallet);
System.out.println("Arbitrator created updated payout tx for co-signer!!!");
System.out.println(payoutTx);
// close multisig wallet
xmrWalletService.closeMultisigWallet(tradeId);
// send updated payout tx to sender
PubKeyRing senderPubKeyRing = contract.getBuyerNodeAddress().equals(request.getSenderNodeAddress()) ? contract.getBuyerPubKeyRing() : contract.getSellerPubKeyRing();
ArbitratorPayoutTxResponse response = new ArbitratorPayoutTxResponse(
tradeId,
p2PService.getAddress(),
UUID.randomUUID().toString(),
SupportType.ARBITRATION,
payoutTx.getTxSet().getMultisigTxHex());
log.info("Send {} to peer {}. tradeId={}, uid={}", response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
p2PService.sendEncryptedDirectMessage(request.getSenderNodeAddress(),
senderPubKeyRing,
response,
new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at peer {}. tradeId={}, uid={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid());
}
@Override
public void onFault(String errorMessage) {
log.error("{} failed: Peer {}. tradeId={}, uid={}, errorMessage={}",
response.getClass().getSimpleName(), request.getSenderNodeAddress(), dispute.getTradeId(), response.getUid(), errorMessage);
}
}
);
}
}
// Dispute opener's peer receives updated payout tx after providing updated multisig hex (if co-signer)
private void onArbitratorPayoutTxResponse(ArbitratorPayoutTxResponse response) {
log.info("{}.onArbitratorPayoutTxResponse()", getClass().getSimpleName());
// gather and verify trade info // TODO (woodser): verify response is from arbitrator, etc
String tradeId = response.getTradeId();
Trade trade = tradeManager.getTrade(tradeId);
synchronized (trade) {
// verify and sign dispute payout tx
MoneroTxSet signedPayoutTx = traderSignsDisputePayoutTx(tradeId, response.getArbitratorSignedPayoutTxHex());
// verify and sign dispute payout tx
MoneroTxSet signedPayoutTx = traderSignsDisputePayoutTx(tradeId, response.getArbitratorSignedPayoutTxHex());
// process fully signed payout tx (publish, notify peer, etc)
onTraderSignedDisputePayoutTx(tradeId, signedPayoutTx);
// process fully signed payout tx (publish, notify peer, etc)
onTraderSignedDisputePayoutTx(tradeId, signedPayoutTx);
}
}
private MoneroTxSet traderSignsDisputePayoutTx(String tradeId, String payoutTxHex) {
// gather trade info
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId);
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) throw new RuntimeException("Trader has no dispute when signing dispute payout tx. This should never happen. TradeId = " + tradeId);
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
// Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
// BigInteger sellerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getMaker().getDepositTxHash() : trade.getTaker().getDepositTxHash()).getIncomingAmount(); // TODO (woodser): use contract instead of trade to get deposit tx ids when contract has deposit tx ids
// BigInteger buyerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getTaker().getDepositTxHash() : trade.getMaker().getDepositTxHash()).getIncomingAmount();
// BigInteger tradeAmount = BigInteger.valueOf(contract.getTradeAmount().value).multiply(ParsingUtils.XMR_SATOSHI_MULTIPLIER);
// parse arbitrator-signed payout tx
MoneroTxSet parsedTxSet = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(payoutTxHex));
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad arbitrator-signed payout tx"); // TODO (woodser): nack
MoneroTxWallet arbitratorSignedPayoutTx = parsedTxSet.getTxs().get(0);
log.info("Received updated multisig hex and partially signed payout tx from arbitrator:\n" + arbitratorSignedPayoutTx);
// verify payout tx has 1 or 2 destinations
int numDestinations = arbitratorSignedPayoutTx.getOutgoingTransfer() == null || arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations() == null ? 0 : arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations().size();
if (numDestinations != 1 && numDestinations != 2) throw new RuntimeException("Buyer-signed payout tx does not have 1 or 2 destinations");
// get buyer and seller destinations (order not preserved)
List<MoneroDestination> destinations = arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations();
boolean buyerFirst = destinations.get(0).getAddress().equals(contract.getBuyerPayoutAddressString());
MoneroDestination buyerPayoutDestination = buyerFirst ? destinations.get(0) : numDestinations == 2 ? destinations.get(1) : null;
MoneroDestination sellerPayoutDestination = buyerFirst ? (numDestinations == 2 ? destinations.get(1) : null) : destinations.get(0);
// verify payout addresses
if (buyerPayoutDestination != null && !buyerPayoutDestination.getAddress().equals(contract.getBuyerPayoutAddressString())) throw new RuntimeException("Buyer payout address does not match contract");
if (sellerPayoutDestination != null && !sellerPayoutDestination.getAddress().equals(contract.getSellerPayoutAddressString())) throw new RuntimeException("Seller payout address does not match contract");
// verify change address is multisig's primary address
if (!arbitratorSignedPayoutTx.getChangeAmount().equals(BigInteger.ZERO) && !arbitratorSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify sum of outputs = destination amounts + change amount
BigInteger destinationSum = (buyerPayoutDestination == null ? BigInteger.ZERO : buyerPayoutDestination.getAmount()).add(sellerPayoutDestination == null ? BigInteger.ZERO : sellerPayoutDestination.getAmount());
if (!arbitratorSignedPayoutTx.getOutputSum().equals(destinationSum.add(arbitratorSignedPayoutTx.getChangeAmount()))) throw new RuntimeException("Sum of outputs != destination amounts + change amount");
// TODO (woodser): verify fee is reasonable (e.g. within 2x of fee estimate tx)
// verify winner and loser payout amounts
BigInteger txCost = arbitratorSignedPayoutTx.getFee().add(arbitratorSignedPayoutTx.getChangeAmount()); // fee + lost dust change
BigInteger expectedWinnerAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getBuyerPayoutAmount() : disputeResult.getSellerPayoutAmount());
BigInteger expectedLoserAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getSellerPayoutAmount() : disputeResult.getBuyerPayoutAmount());
if (expectedLoserAmount.equals(BigInteger.ZERO)) expectedWinnerAmount = expectedWinnerAmount.subtract(txCost); // winner only pays tx cost if loser gets 0
else expectedLoserAmount = expectedLoserAmount.subtract(txCost); // loser pays tx cost
BigInteger actualWinnerAmount = disputeResult.getWinner() == Winner.BUYER ? buyerPayoutDestination.getAmount() : sellerPayoutDestination.getAmount();
BigInteger actualLoserAmount = numDestinations == 1 ? BigInteger.ZERO : disputeResult.getWinner() == Winner.BUYER ? sellerPayoutDestination.getAmount() : buyerPayoutDestination.getAmount();
if (!expectedWinnerAmount.equals(actualWinnerAmount)) throw new RuntimeException("Unexpected winner payout: " + expectedWinnerAmount + " vs " + actualWinnerAmount);
if (!expectedLoserAmount.equals(actualLoserAmount)) throw new RuntimeException("Unexpected loser payout: " + expectedLoserAmount + " vs " + actualLoserAmount);
// update multisig wallet from arbitrator
multisigWallet.importMultisigHex(Arrays.asList(disputeResult.getArbitratorUpdatedMultisigHex()));
// sign arbitrator-signed payout tx
MoneroMultisigSignResult result = multisigWallet.signMultisigTxHex(payoutTxHex);
if (result.getSignedMultisigTxHex() == null) throw new RuntimeException("Error signing arbitrator-signed payout tx");
String signedMultisigTxHex = result.getSignedMultisigTxHex();
parsedTxSet.setMultisigTxHex(signedMultisigTxHex);
return parsedTxSet;
}
private void onTraderSignedDisputePayoutTx(String tradeId, MoneroTxSet txSet) {
// gather trade info
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId);
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) {
log.warn("Trader has no dispute when signing dispute payout tx. This should never happen. TradeId = " + tradeId);
@ -481,10 +570,12 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
}
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
Trade trade = tradeManager.getTradeById(tradeId).get();
Trade trade = tradeManager.getOpenTrade(tradeId).get();
// submit fully signed payout tx to the network
multisigWallet.submitMultisigTxHex(txSet.getMultisigTxHex());
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId); // closed when trade completed (TradeManager.onTradeCompleted())
List<String> txHashes = multisigWallet.submitMultisigTxHex(txSet.getMultisigTxHex());
txSet.getTxs().get(0).setHash(txHashes.get(0)); // manually update hash which is known after signed
// update state
trade.setPayoutTx(txSet.getTxs().get(0)); // TODO (woodser): is trade.payoutTx() mutually exclusive from dispute payout tx?
@ -505,7 +596,7 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
NodeAddress peersNodeAddress = dispute.isDisputeOpenerIsBuyer() ? contract.getSellerNodeAddress() : contract.getBuyerNodeAddress();
log.trace("sendPeerPublishedPayoutTxMessage to peerAddress {}", peersNodeAddress);
PeerPublishedDisputePayoutTxMessage message = new PeerPublishedDisputePayoutTxMessage(updatedMultisigHex,
payoutTxHex,
payoutTxHex,
dispute.getTradeId(),
p2PService.getAddress(),
UUID.randomUUID().toString(),
@ -539,7 +630,7 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
private void updateTradeOrOpenOfferManager(String tradeId) {
// set state after payout as we call swapTradeEntryToAvailableEntry
if (tradeManager.getTradeById(tradeId).isPresent()) {
if (tradeManager.getOpenTrade(tradeId).isPresent()) {
tradeManager.closeDisputedTrade(tradeId, Trade.DisputeState.DISPUTE_CLOSED);
} else {
Optional<OpenOffer> openOfferOptional = openOfferManager.getOpenOfferById(tradeId);
@ -622,71 +713,4 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
log.info("Dispute payout transaction generated on attempt {}: {}", numAttempts, payoutTx);
return payoutTx;
}
private MoneroTxSet traderSignsDisputePayoutTx(String tradeId, String payoutTxHex) {
// gather trade info
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(tradeId);
Optional<Dispute> disputeOptional = findDispute(tradeId);
if (!disputeOptional.isPresent()) throw new RuntimeException("Trader has no dispute when signing dispute payout tx. This should never happen. TradeId = " + tradeId);
Dispute dispute = disputeOptional.get();
Contract contract = dispute.getContract();
DisputeResult disputeResult = dispute.getDisputeResultProperty().get();
// Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
// BigInteger sellerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getMaker().getDepositTxHash() : trade.getTaker().getDepositTxHash()).getIncomingAmount(); // TODO (woodser): use contract instead of trade to get deposit tx ids when contract has deposit tx ids
// BigInteger buyerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? trade.getTaker().getDepositTxHash() : trade.getMaker().getDepositTxHash()).getIncomingAmount();
// BigInteger tradeAmount = BigInteger.valueOf(contract.getTradeAmount().value).multiply(ParsingUtils.XMR_SATOSHI_MULTIPLIER);
// parse arbitrator-signed payout tx
MoneroTxSet parsedTxSet = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(payoutTxHex));
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad arbitrator-signed payout tx"); // TODO (woodser): nack
MoneroTxWallet arbitratorSignedPayoutTx = parsedTxSet.getTxs().get(0);
System.out.println("Parsed arbitrator-signed payout tx:\n" + arbitratorSignedPayoutTx);
// verify payout tx has 1 or 2 destinations
int numDestinations = arbitratorSignedPayoutTx.getOutgoingTransfer() == null || arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations() == null ? 0 : arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations().size();
if (numDestinations != 1 && numDestinations != 2) throw new RuntimeException("Buyer-signed payout tx does not have 1 or 2 destinations");
// get buyer and seller destinations (order not preserved)
List<MoneroDestination> destinations = arbitratorSignedPayoutTx.getOutgoingTransfer().getDestinations();
boolean buyerFirst = destinations.get(0).getAddress().equals(contract.getBuyerPayoutAddressString());
MoneroDestination buyerPayoutDestination = buyerFirst ? destinations.get(0) : numDestinations == 2 ? destinations.get(1) : null;
MoneroDestination sellerPayoutDestination = buyerFirst ? (numDestinations == 2 ? destinations.get(1) : null) : destinations.get(0);
// verify payout addresses
if (buyerPayoutDestination != null && !buyerPayoutDestination.getAddress().equals(contract.getBuyerPayoutAddressString())) throw new RuntimeException("Buyer payout address does not match contract");
if (sellerPayoutDestination != null && !sellerPayoutDestination.getAddress().equals(contract.getSellerPayoutAddressString())) throw new RuntimeException("Seller payout address does not match contract");
// verify change address is multisig's primary address
if (arbitratorSignedPayoutTx.getChangeAddress() != null && !arbitratorSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify sum of outputs = destination amounts + change amount
BigInteger destinationSum = (buyerPayoutDestination == null ? BigInteger.ZERO : buyerPayoutDestination.getAmount()).add(sellerPayoutDestination == null ? BigInteger.ZERO : sellerPayoutDestination.getAmount());
if (!arbitratorSignedPayoutTx.getOutputSum().equals(destinationSum.add(arbitratorSignedPayoutTx.getChangeAmount()))) throw new RuntimeException("Sum of outputs != destination amounts + change amount");
// TODO (woodser): verify fee is reasonable (e.g. within 2x of fee estimate tx)
// verify winner and loser payout amounts
BigInteger txCost = arbitratorSignedPayoutTx.getFee().add(arbitratorSignedPayoutTx.getChangeAmount()); // fee + lost dust change
BigInteger expectedWinnerAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getBuyerPayoutAmount() : disputeResult.getSellerPayoutAmount());
BigInteger expectedLoserAmount = ParsingUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getSellerPayoutAmount() : disputeResult.getBuyerPayoutAmount());
if (expectedLoserAmount.equals(BigInteger.ZERO)) expectedWinnerAmount = expectedWinnerAmount.subtract(txCost); // winner only pays tx cost if loser gets 0
else expectedLoserAmount = expectedLoserAmount.subtract(txCost); // loser pays tx cost
BigInteger actualWinnerAmount = disputeResult.getWinner() == Winner.BUYER ? buyerPayoutDestination.getAmount() : sellerPayoutDestination.getAmount();
BigInteger actualLoserAmount = numDestinations == 1 ? BigInteger.ZERO : disputeResult.getWinner() == Winner.BUYER ? sellerPayoutDestination.getAmount() : buyerPayoutDestination.getAmount();
if (!expectedWinnerAmount.equals(actualWinnerAmount)) throw new RuntimeException("Unexpected winner payout: " + expectedWinnerAmount + " vs " + actualWinnerAmount);
if (!expectedLoserAmount.equals(actualLoserAmount)) throw new RuntimeException("Unexpected loser payout: " + expectedLoserAmount + " vs " + actualLoserAmount);
// update multisig wallet from arbitrator
System.out.println("Updating multisig hex from arbitrator");
multisigWallet.importMultisigHex(Arrays.asList(disputeResult.getArbitratorUpdatedMultisigHex()));
// sign arbitrator-signed payout tx
MoneroMultisigSignResult result = multisigWallet.signMultisigTxHex(payoutTxHex);
if (result.getSignedMultisigTxHex() == null) throw new RuntimeException("Error signing arbitrator-signed payout tx");
String signedMultisigTxHex = result.getSignedMultisigTxHex();
parsedTxSet.setMultisigTxHex(signedMultisigTxHex);
return parsedTxSet;
}
}

View file

@ -134,7 +134,7 @@ public final class MediationManager extends DisputeManager<MediationDisputeList>
@Override
public void cleanupDisputes() {
disputeListService.cleanupDisputes(tradeId -> {
tradeManager.getTradeById(tradeId).filter(trade -> trade.getPayoutTx() != null)
tradeManager.getOpenTrade(tradeId).filter(trade -> trade.getPayoutTx() != null)
.ifPresent(trade -> {
tradeManager.closeDisputedTrade(tradeId, Trade.DisputeState.MEDIATION_CLOSED);
});
@ -197,7 +197,7 @@ public final class MediationManager extends DisputeManager<MediationDisputeList>
dispute.setDisputeResult(disputeResult);
Optional<Trade> tradeOptional = tradeManager.getTradeById(tradeId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) {
Trade trade = tradeOptional.get();
if (trade.getDisputeState() == Trade.DisputeState.MEDIATION_REQUESTED ||

View file

@ -200,7 +200,7 @@ public final class RefundManager extends DisputeManager<RefundDisputeList> {
dispute.setDisputeResult(disputeResult);
Optional<Trade> tradeOptional = tradeManager.getTradeById(tradeId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(tradeId);
if (tradeOptional.isPresent()) {
Trade trade = tradeOptional.get();
if (trade.getDisputeState() == Trade.DisputeState.REFUND_REQUESTED ||
@ -215,7 +215,7 @@ public final class RefundManager extends DisputeManager<RefundDisputeList> {
sendAckMessage(chatMessage, dispute.getAgentPubKeyRing(), true, null);
// set state after payout as we call swapTradeEntryToAvailableEntry
if (tradeManager.getTradeById(tradeId).isPresent()) {
if (tradeManager.getOpenTrade(tradeId).isPresent()) {
tradeManager.closeDisputedTrade(tradeId, Trade.DisputeState.REFUND_REQUEST_CLOSED);
} else {
Optional<OpenOffer> openOfferOptional = openOfferManager.getOpenOfferById(tradeId);

View file

@ -83,7 +83,7 @@ public class TraderChatManager extends SupportManager {
@Override
public NodeAddress getPeerNodeAddress(ChatMessage message) {
return tradeManager.getTradeById(message.getTradeId()).map(trade -> {
return tradeManager.getOpenTrade(message.getTradeId()).map(trade -> {
if (trade.getContract() != null) {
return trade.getContract().getPeersNodeAddress(pubKeyRingProvider.get());
} else {
@ -94,7 +94,7 @@ public class TraderChatManager extends SupportManager {
@Override
public PubKeyRing getPeerPubKeyRing(ChatMessage message) {
return tradeManager.getTradeById(message.getTradeId()).map(trade -> {
return tradeManager.getOpenTrade(message.getTradeId()).map(trade -> {
if (trade.getContract() != null) {
return trade.getContract().getPeersPubKeyRing(pubKeyRingProvider.get());
} else {
@ -112,12 +112,12 @@ public class TraderChatManager extends SupportManager {
@Override
public boolean channelOpen(ChatMessage message) {
return tradeManager.getTradeById(message.getTradeId()).isPresent();
return tradeManager.getOpenTrade(message.getTradeId()).isPresent();
}
@Override
public void addAndPersistChatMessage(ChatMessage message) {
tradeManager.getTradeById(message.getTradeId()).ifPresent(trade -> {
tradeManager.getOpenTrade(message.getTradeId()).ifPresent(trade -> {
ObservableList<ChatMessage> chatMessages = trade.getChatMessages();
if (chatMessages.stream().noneMatch(m -> m.getUid().equals(message.getUid()))) {
if (chatMessages.isEmpty()) {

View file

@ -54,10 +54,12 @@ public final class TradableList<T extends Tradable> extends PersistableListAsObs
@Override
public Message toProtoMessage() {
return protobuf.PersistableEnvelope.newBuilder()
.setTradableList(protobuf.TradableList.newBuilder()
.addAllTradable(ProtoUtil.collectionToProto(getList(), protobuf.Tradable.class)))
.build();
synchronized (getList()) {
return protobuf.PersistableEnvelope.newBuilder()
.setTradableList(protobuf.TradableList.newBuilder()
.addAllTradable(ProtoUtil.collectionToProto(getList(), protobuf.Tradable.class)))
.build();
}
}
public static TradableList<Tradable> fromProto(protobuf.TradableList proto,

View file

@ -63,6 +63,7 @@ import javafx.collections.FXCollections;
import javafx.collections.ObservableList;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Date;
import java.util.List;
import java.util.Optional;
@ -82,8 +83,8 @@ import static com.google.common.base.Preconditions.checkNotNull;
import monero.common.MoneroError;
import monero.daemon.MoneroDaemon;
import monero.daemon.model.MoneroTx;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroOutputWallet;
import monero.wallet.model.MoneroTxWallet;
import monero.wallet.model.MoneroWalletListener;
@ -99,9 +100,11 @@ public abstract class Trade implements Tradable, Model {
///////////////////////////////////////////////////////////////////////////////////////////
public enum State {
// #################### Phase PREPARATION
// #################### Phase INIT
// When trade protocol starts no funds are on stake
PREPARATION(Phase.INIT),
CONTRACT_SIGNATURE_REQUESTED(Phase.INIT), // TODO (woodser): add more states for initializing multisig, etc to support trade initialization notifications
CONTRACT_SIGNED(Phase.INIT),
// At first part maker/taker have different roles
// taker perspective
@ -206,9 +209,9 @@ public abstract class Trade implements Tradable, Model {
public enum Phase {
INIT,
TAKER_FEE_PUBLISHED,
TAKER_FEE_PUBLISHED, // TODO (woodser): remove unused phases
DEPOSIT_PUBLISHED,
DEPOSIT_CONFIRMED,
DEPOSIT_CONFIRMED, // TODO (woodser): rename to or add DEPOSIT_UNLOCKED
FIAT_SENT,
FIAT_RECEIVED,
PAYOUT_PUBLISHED,
@ -463,8 +466,8 @@ public abstract class Trade implements Tradable, Model {
transient MoneroWalletListener depositTxListener;
transient Boolean makerDepositLocked; // null when unknown, true while locked, false when unlocked
transient Boolean takerDepositLocked;
transient private MoneroTxWallet makerDepositTx;
transient private MoneroTxWallet takerDepositTx;
transient private MoneroTx makerDepositTx;
transient private MoneroTx takerDepositTx;
///////////////////////////////////////////////////////////////////////////////////////////
// Constructor, initialization
@ -696,72 +699,101 @@ public abstract class Trade implements Tradable, Model {
else throw new RuntimeException("Unknown trade type: " + this.getClass().getName());
}
// The deserialized tx has not actual confidence data, so we need to get the fresh one from the wallet.
void updateDepositTxFromWallet() {
if (getMakerDepositTx() != null && getTakerDepositTx() != null) {
MoneroWallet multisigWallet = processModel.getProvider().getXmrWalletService().getMultisigWallet(getId());
applyDepositTxs(multisigWallet.getTx(getMakerDepositTx().getHash()), multisigWallet.getTx(getTakerDepositTx().getHash()));
}
}
/**
* Listen for deposit transactions to unlock and then apply the transactions.
*
* TODO: adopt for general purpose scheduling
* TODO: check and notify if deposits are dropped due to re-org
*/
public void listenForDepositTxs() {
log.info("Listening for deposit txs to unlock for trade {}", getId());
public void applyDepositTxs(MoneroTxWallet makerDepositTx, MoneroTxWallet takerDepositTx) {
this.makerDepositTx = makerDepositTx;
this.takerDepositTx = takerDepositTx;
if (!makerDepositTx.isLocked() && !takerDepositTx.isLocked()) {
setConfirmedState(); // TODO (woodser): bisq "confirmed" = xmr unlocked after 10 confirmations
}
}
public void setupDepositTxsListener() {
// ignore if already listening
if (depositTxListener != null) {
log.warn("Trade {} already listening for deposit txs", getId());
return;
}
// create listener for deposit transactions
MoneroWallet multisigWallet = processModel.getXmrWalletService().getMultisigWallet(getId());
depositTxListener = processModel.getXmrWalletService().new HavenoWalletListener(new MoneroWalletListener() { // TODO (woodser): separate into own class file
@Override
public void onOutputReceived(MoneroOutputWallet output) {
// get daemon and primary wallet
MoneroDaemon daemon = processModel.getXmrWalletService().getDaemon();
MoneroWallet havenoWallet = processModel.getXmrWalletService().getWallet();
// fetch deposit txs from daemon
List<MoneroTx> txs = daemon.getTxs(Arrays.asList(processModel.getMaker().getDepositTxHash(), processModel.getTaker().getDepositTxHash()), true);
// handle deposit txs seen
if (txs.size() == 2) {
// update state
setState(this instanceof MakerTrade ? Trade.State.MAKER_SAW_DEPOSIT_TX_IN_NETWORK : Trade.State.TAKER_SAW_DEPOSIT_TX_IN_NETWORK);
boolean makerFirst = txs.get(0).getHash().equals(processModel.getMaker().getDepositTxHash());
makerDepositTx = makerFirst ? txs.get(0) : txs.get(1);
takerDepositTx = makerFirst ? txs.get(1) : txs.get(0);
// check if deposit txs unlocked
if (txs.get(0).isConfirmed() && txs.get(1).isConfirmed()) {
long unlockHeight = Math.max(txs.get(0).getHeight(), txs.get(0).getHeight()) + 9;
if (havenoWallet.getHeight() >= unlockHeight) {
setConfirmedState();
return;
}
}
}
// create block listener
depositTxListener = processModel.getXmrWalletService().new HavenoWalletListener(new MoneroWalletListener() { // TODO (woodser): separate into own class file
Long unlockHeight = null;
@Override
public void onNewBlock(long height) {
// ignore if no longer listening
if (depositTxListener == null) return;
// TODO (woodser): remove this
if (output.getTx().isConfirmed() && output.getTx().isLocked() && (processModel.getMaker().getDepositTxHash().equals(output.getTx().getHash()) || processModel.getTaker().getDepositTxHash().equals(output.getTx().getHash()))) {
System.out.println("Deposit output for tx " + output.getTx().getHash() + " is confirmed at height " + output.getTx().getHeight());
}
// update locked state
if (output.getTx().getHash().equals(processModel.getMaker().getDepositTxHash())) makerDepositLocked = output.getTx().isLocked();
else if (output.getTx().getHash().equals(processModel.getTaker().getDepositTxHash())) takerDepositLocked = output.getTx().isLocked();
// deposit txs seen when both locked states seen
if (makerDepositLocked != null && takerDepositLocked != null) {
// ignore if before unlock height
if (unlockHeight != null && height < unlockHeight) return;
// fetch txs from daemon
List<MoneroTx> txs = daemon.getTxs(Arrays.asList(processModel.getMaker().getDepositTxHash(), processModel.getTaker().getDepositTxHash()), true);
// ignore if deposit txs not seen
if (txs.size() != 2) return;
// update deposit txs
boolean makerFirst = txs.get(0).getHash().equals(processModel.getMaker().getDepositTxHash());
makerDepositTx = makerFirst ? txs.get(0) : txs.get(1);
takerDepositTx = makerFirst ? txs.get(1) : txs.get(0);
// update state when deposit txs seen
if (txs.size() == 2) {
setState(this instanceof MakerTrade ? Trade.State.MAKER_SAW_DEPOSIT_TX_IN_NETWORK : Trade.State.TAKER_SAW_DEPOSIT_TX_IN_NETWORK);
}
// confirm trade and update ui when both deposits unlock
if (Boolean.FALSE.equals(makerDepositLocked) && Boolean.FALSE.equals(takerDepositLocked)) {
System.out.println("Multisig deposit txs unlocked!");
applyDepositTxs(multisigWallet.getTx(processModel.getMaker().getDepositTxHash()), multisigWallet.getTx(processModel.getTaker().getDepositTxHash()));
multisigWallet.removeListener(depositTxListener); // remove listener when notified
// compute unlock height
if (unlockHeight == null && txs.size() == 2 && txs.get(0).isConfirmed() && txs.get(1).isConfirmed()) {
unlockHeight = Math.max(txs.get(0).getHeight(), txs.get(0).getHeight()) + 9;
}
// check if txs unlocked
if (unlockHeight != null && height == unlockHeight) {
log.info("Multisig deposits unlocked for trade {}", getId());
setConfirmedState(); // TODO (woodser): bisq "confirmed" = xmr unlocked after 10 confirmations
havenoWallet.removeListener(depositTxListener); // remove listener when notified
depositTxListener = null; // prevent re-applying trade state in subsequent requests
}
}
});
// register wallet listener
multisigWallet.addListener(depositTxListener);
havenoWallet.addListener(depositTxListener);
}
@Nullable
public MoneroTxWallet getTakerDepositTx() {
public MoneroTx getTakerDepositTx() {
String depositTxHash = getProcessModel().getTaker().getDepositTxHash();
try {
if (takerDepositTx == null) takerDepositTx = depositTxHash == null ? null : xmrWalletService.getMultisigWallet(getId()).getTx(depositTxHash);
if (takerDepositTx == null) takerDepositTx = depositTxHash == null ? null : getXmrWalletService().getDaemon().getTx(depositTxHash);
return takerDepositTx;
} catch (MoneroError e) {
log.error("Wallet is missing taker deposit tx " + depositTxHash);
@ -770,10 +802,10 @@ public abstract class Trade implements Tradable, Model {
}
@Nullable
public MoneroTxWallet getMakerDepositTx() {
public MoneroTx getMakerDepositTx() {
String depositTxHash = getProcessModel().getMaker().getDepositTxHash();
try {
if (makerDepositTx == null) makerDepositTx = depositTxHash == null ? null : xmrWalletService.getMultisigWallet(getId()).getTx(depositTxHash);
if (makerDepositTx == null) makerDepositTx = depositTxHash == null ? null : getXmrWalletService().getDaemon().getTx(depositTxHash);
return makerDepositTx;
} catch (MoneroError e) {
log.error("Wallet is missing maker deposit tx " + depositTxHash);
@ -1047,10 +1079,10 @@ public abstract class Trade implements Tradable, Model {
private long getTradeStartTime() {
long now = System.currentTimeMillis();
long startTime;
final MoneroTxWallet takerDepositTx = getTakerDepositTx();
final MoneroTxWallet makerDepositTx = getMakerDepositTx();
final MoneroTx takerDepositTx = getTakerDepositTx();
final MoneroTx makerDepositTx = getMakerDepositTx();
if (makerDepositTx != null && takerDepositTx != null && getTakeOfferDate() != null) {
if (!makerDepositTx.isLocked() && !takerDepositTx.isLocked()) {
if (isDepositConfirmed()) {
final long tradeTime = getTakeOfferDate().getTime();
long maxHeight = Math.max(makerDepositTx.getHeight(), takerDepositTx.getHeight());
MoneroDaemon daemonRpc = xmrWalletService.getDaemon();

View file

@ -118,7 +118,7 @@ import javax.annotation.Nullable;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import monero.wallet.model.MoneroTxWallet;
import monero.daemon.model.MoneroTx;
public class TradeManager implements PersistedDataHost, DecryptedDirectMessageListener {
@ -346,7 +346,6 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
private void initPersistedTrade(Trade trade) {
initTradeAndProtocol(trade, getTradeProtocol(trade));
trade.updateDepositTxFromWallet(); // TODO (woodser): this re-opens all multisig wallets. only open active wallets
requestPersistence();
}
@ -405,7 +404,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
}
Trade trade;
Optional<Trade> tradeOptional = getTradeById(offer.getId());
Optional<Trade> tradeOptional = getOpenTrade(offer.getId());
if (tradeOptional.isPresent()) {
trade = tradeOptional.get();
@ -446,11 +445,13 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
}
initTradeAndProtocol(trade, getTradeProtocol(trade));
tradableList.add(trade);
synchronized (tradableList) {
tradableList.add(trade);
}
}
((ArbitratorProtocol) getTradeProtocol(trade)).handleInitTradeRequest(request, sender, errorMessage -> {
log.warn("Arbitrator error during trade initialization: " + errorMessage);
log.warn("Arbitrator error during trade initialization for trade {}: {}", trade.getId(), errorMessage);
removeTrade(trade);
});
@ -514,8 +515,10 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
trade.getSelf().setReserveTxHex(openOffer.getReserveTxHex());
trade.getSelf().setReserveTxKey(openOffer.getReserveTxKey());
trade.getSelf().setReserveTxKeyImages(offer.getOfferPayload().getReserveTxKeyImages());
tradableList.add(trade);
synchronized (tradableList) {
tradableList.add(trade);
}
// notify on phase changes
// TODO (woodser): save subscription, bind on startup
EasyBind.subscribe(trade.statePhaseProperty(), phase -> {
@ -545,7 +548,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -564,7 +567,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -583,7 +586,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -602,7 +605,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -621,7 +624,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(response.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(response.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + response.getTradeId());
return;
@ -640,7 +643,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) {
log.warn("No trade with id " + request.getTradeId());
return;
@ -659,7 +662,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
return;
}
Optional<Trade> tradeOptional = getTradeById(request.getTradeId());
Optional<Trade> tradeOptional = getOpenTrade(request.getTradeId());
if (!tradeOptional.isPresent()) throw new RuntimeException("No trade with id " + request.getTradeId()); // TODO (woodser): error handling
Trade trade = tradeOptional.get();
getTradeProtocol(trade).handleUpdateMultisigRequest(request, peer, errorMessage -> {
@ -737,7 +740,9 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
if (prev != null) {
log.error("We had already an entry with uid {}", trade.getUid());
}
tradableList.add(trade);
synchronized (tradableList) {
tradableList.add(trade);
}
initTradeAndProtocol(trade, tradeProtocol);
@ -753,7 +758,10 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
requestPersistence();
}
},
errorMessageHandler);
errorMessage -> {
log.warn("Taker error during check offer availability: " + errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
});
requestPersistence();
}
@ -797,8 +805,8 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
// If trade was completed (closed without fault but might be closed by a dispute) we move it to the closed trades
public void onTradeCompleted(Trade trade) {
removeTrade(trade);
closedTradableManager.add(trade);
removeTrade(trade);
// TODO The address entry should have been removed already. Check and if its the case remove that.
xmrWalletService.resetAddressEntriesForPendingTrade(trade.getId());
@ -811,7 +819,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
///////////////////////////////////////////////////////////////////////////////////////////
public void closeDisputedTrade(String tradeId, Trade.DisputeState disputeState) {
Optional<Trade> tradeOptional = getTradeById(tradeId);
Optional<Trade> tradeOptional = getOpenTrade(tradeId);
if (tradeOptional.isPresent()) {
Trade trade = tradeOptional.get();
trade.setDisputeState(disputeState);
@ -897,9 +905,9 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
.collect(Collectors.toSet()));
tradesIdSet.addAll(closedTradableManager.getTradesStreamWithFundsLockedIn()
.map(trade -> {
MoneroTxWallet makerDepositTx = trade.getMakerDepositTx();
MoneroTx makerDepositTx = trade.getMakerDepositTx();
if (makerDepositTx != null) {
if (makerDepositTx.isLocked()) {
if (!makerDepositTx.isConfirmed()) {
tradeTxException.set(new TradeTxException(Res.get("error.closedTradeWithUnconfirmedDepositTx", trade.getShortId()))); // TODO (woodser): rename to closedTradeWithLockedDepositTx
} else {
log.warn("We found a closed trade with locked up funds. " +
@ -909,7 +917,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
tradeTxException.set(new TradeTxException(Res.get("error.closedTradeWithNoDepositTx", trade.getShortId())));
}
MoneroTxWallet takerDepositTx = trade.getTakerDepositTx();
MoneroTx takerDepositTx = trade.getTakerDepositTx();
if (takerDepositTx != null) {
if (!takerDepositTx.isConfirmed()) {
tradeTxException.set(new TradeTxException(Res.get("error.closedTradeWithUnconfirmedDepositTx", trade.getShortId())));
@ -940,9 +948,12 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
initPersistedTrade(trade);
if (!tradableList.contains(trade)) {
tradableList.add(trade);
synchronized (tradableList) {
if (!tradableList.contains(trade)) {
tradableList.add(trade);
}
}
return true;
}
@ -967,7 +978,9 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
///////////////////////////////////////////////////////////////////////////////////////////
public ObservableList<Trade> getObservableList() {
return tradableList.getObservableList();
synchronized (tradableList) {
return tradableList.getObservableList();
}
}
public BooleanProperty persistedTradesInitializedProperty() {
@ -979,7 +992,7 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
}
public boolean wasOfferAlreadyUsedInTrade(String offerId) {
return getTradeById(offerId).isPresent() ||
return getOpenTrade(offerId).isPresent() ||
failedTradesManager.getTradeById(offerId).isPresent() ||
closedTradableManager.getTradableById(offerId).isPresent();
}
@ -991,37 +1004,58 @@ public class TradeManager implements PersistedDataHost, DecryptedDirectMessageLi
else
return offer.getDirection() == OfferPayload.Direction.SELL;
}
// TODO (woodser): make Optional<Trade> versus Trade return types consistent
public Trade getTrade(String tradeId) {
return getOpenTrade(tradeId).orElseGet(() -> getClosedTrade(tradeId).orElseGet(() -> null));
}
public Optional<Trade> getTradeById(String tradeId) {
public Optional<Trade> getOpenTrade(String tradeId) {
return tradableList.stream().filter(e -> e.getId().equals(tradeId)).findFirst();
}
public List<Trade> getTrades() {
public List<Trade> getOpenTrades() {
return ImmutableList.copyOf(getObservableList().stream()
.filter(e -> e instanceof Trade)
.map(e -> e)
.collect(Collectors.toList()));
}
public Optional<Trade> getClosedTrade(String tradeId) {
return closedTradableManager.getClosedTrades().stream().filter(e -> e.getId().equals(tradeId)).findFirst();
}
private void removeTrade(Trade trade) {
if (tradableList.remove(trade)) {
log.info("TradeManager.removeTrade()");
synchronized(tradableList) {
if (!tradableList.contains(trade)) return;
// unreserve taker trade key images
if (trade instanceof TakerTrade && trade.getSelf().getReserveTxKeyImages() != null) {
for (String keyImage : trade.getSelf().getReserveTxKeyImages()) {
xmrWalletService.getWallet().thawOutput(keyImage);
synchronized (trade) {
// unreserve trade key images
if (trade instanceof TakerTrade && trade.getSelf().getReserveTxKeyImages() != null) {
for (String keyImage : trade.getSelf().getReserveTxKeyImages()) {
xmrWalletService.getWallet().thawOutput(keyImage);
}
}
}
p2PService.removeDecryptedDirectMessageListener(getTradeProtocol(trade));
xmrWalletService.deleteMultisigWallet(trade.getId()); // TODO (woodser): don't delete multisig wallet until payout tx unlocked?
requestPersistence();
// delete multisig wallet // TODO (woodser): don't delete multisig wallet until payout tx unlocked
if (xmrWalletService.multisigWalletExists(trade.getId())) xmrWalletService.deleteMultisigWallet(trade.getId());
else log.warn("Multisig wallet to delete for trade {} does not exist", trade.getId());
// unregister and persist
p2PService.removeDecryptedDirectMessageListener(getTradeProtocol(trade));
tradableList.remove(trade);
requestPersistence();
}
}
}
private void addTrade(Trade trade) {
if (tradableList.add(trade)) {
requestPersistence();
synchronized(tradableList) {
if (tradableList.add(trade)) {
requestPersistence();
}
}
}

View file

@ -137,9 +137,9 @@ public class TradeUtils {
}
/**
* Create a transaction to reserve a trade. The deposit amount is returned
* to the sender's payout address. Additional funds are reserved to allow
* fluctuations in the mining fee.
* Create a transaction to reserve a trade and freeze its funds. The deposit
* amount is returned to the sender's payout address. Additional funds are
* reserved to allow fluctuations in the mining fee.
*
* @param xmrWalletService
* @param offerId
@ -147,8 +147,8 @@ public class TradeUtils {
* @param depositAmount
* @return a transaction to reserve a trade
*/
public static MoneroTxWallet createReserveTx(XmrWalletService xmrWalletService, String offerId, BigInteger tradeFee, String returnAddress, BigInteger depositAmount) {
public static MoneroTxWallet reserveTradeFunds(XmrWalletService xmrWalletService, String offerId, BigInteger tradeFee, String returnAddress, BigInteger depositAmount) {
// get expected mining fee
MoneroWallet wallet = xmrWalletService.getWallet();
MoneroTxWallet miningFeeTx = wallet.createTx(new MoneroTxConfig()
@ -156,13 +156,18 @@ public class TradeUtils {
.addDestination(TradeUtils.FEE_ADDRESS, tradeFee)
.addDestination(returnAddress, depositAmount));
BigInteger miningFee = miningFeeTx.getFee();
// create reserve tx
MoneroTxWallet reserveTx = wallet.createTx(new MoneroTxConfig()
.setAccountIndex(0)
.addDestination(TradeUtils.FEE_ADDRESS, tradeFee)
.addDestination(returnAddress, depositAmount.add(miningFee.multiply(BigInteger.valueOf(3l))))); // add thrice the mining fee // TODO (woodser): really require more funds on top of security deposit?
// freeze trade funds
for (MoneroOutput input : reserveTx.getInputs()) {
wallet.freezeOutput(input.getKeyImage().getHex());
}
return reserveTx;
}
@ -222,6 +227,9 @@ public class TradeUtils {
if (!txKeyImages.equals(new HashSet<String>(keyImages))) throw new Error("Reserve tx's inputs do not match claimed key images");
}
// verify the unlock height
if (tx.getUnlockHeight() != 0) throw new RuntimeException("Unlock height must be 0");
// verify trade fee
String feeAddress = TradeUtils.FEE_ADDRESS;
MoneroCheckTx check = wallet.checkTxKey(txHash, txKey, feeAddress);

View file

@ -8,14 +8,14 @@ import bisq.core.trade.messages.InitTradeRequest;
import bisq.core.trade.messages.SignContractRequest;
import bisq.core.trade.protocol.tasks.ApplyFilter;
import bisq.core.trade.protocol.tasks.ArbitratorSendsInitTradeAndMultisigRequests;
import bisq.core.trade.protocol.tasks.ProcessDepositRequest;
import bisq.core.trade.protocol.tasks.ArbitratorProcessesDepositRequest;
import bisq.core.trade.protocol.tasks.ProcessInitMultisigRequest;
import bisq.core.trade.protocol.tasks.ArbitratorProcessesReserveTx;
import bisq.core.trade.protocol.tasks.ProcessInitTradeRequest;
import bisq.core.trade.protocol.tasks.ProcessSignContractRequest;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import lombok.extern.slf4j.Slf4j;
@ -34,94 +34,118 @@ public class ArbitratorProtocol extends DisputeProtocol {
public void handleInitTradeRequest(InitTradeRequest message,
NodeAddress peer,
ErrorMessageHandler errorMessageHandler) {
this.errorMessageHandler = errorMessageHandler;
processModel.setTradeMessage(message); // TODO (woodser): confirm these are null without being set
//processModel.setTempTradingPeerNodeAddress(peer);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ApplyFilter.class,
ProcessInitTradeRequest.class,
ArbitratorProcessesReserveTx.class,
ArbitratorSendsInitTradeAndMultisigRequests.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
this.errorMessageHandler = errorMessageHandler;
processModel.setTradeMessage(message); // TODO (woodser): confirm these are null without being set
CountDownLatch latch = new CountDownLatch(1);
//processModel.setTempTradingPeerNodeAddress(peer);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ApplyFilter.class,
ProcessInitTradeRequest.class,
ArbitratorProcessesReserveTx.class,
ArbitratorSendsInitTradeAndMultisigRequests.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("ArbitratorProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("ArbitratorProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
public void handleDepositRequest(DepositRequest request, NodeAddress sender) {
System.out.println("ArbitratorProtocol.handleDepositRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessDepositRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ArbitratorProcessesDepositRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
///////////////////////////////////////////////////////////////////////////////////////////

View file

@ -19,6 +19,7 @@ package bisq.core.trade.protocol;
import bisq.core.trade.BuyerAsMakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.messages.DelayedPayoutTxSignatureRequest;
import bisq.core.trade.messages.DepositResponse;
import bisq.core.trade.messages.DepositTxAndDelayedPayoutTxMessage;
@ -47,11 +48,12 @@ import bisq.core.trade.protocol.tasks.maker.MakerVerifyTakerFeePayment;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
@Slf4j
public class BuyerAsMakerProtocol extends BuyerProtocol implements MakerProtocol {
@ -74,142 +76,191 @@ public class BuyerAsMakerProtocol extends BuyerProtocol implements MakerProtocol
public void handleInitTradeRequest(InitTradeRequest message,
NodeAddress peer,
ErrorMessageHandler errorMessageHandler) {
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitTradeRequest()");
synchronized (trade) {
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(peer, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.CONTRACT_SIGNATURE_REQUESTED) handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}
///////////////////////////////////////////////////////////////////////////////////////////

View file

@ -21,6 +21,7 @@ package bisq.core.trade.protocol;
import bisq.core.offer.Offer;
import bisq.core.trade.BuyerAsTakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.handlers.TradeResultHandler;
import bisq.core.trade.messages.DelayedPayoutTxSignatureRequest;
import bisq.core.trade.messages.DepositResponse;
@ -32,6 +33,7 @@ import bisq.core.trade.messages.PayoutTxPublishedMessage;
import bisq.core.trade.messages.SignContractRequest;
import bisq.core.trade.messages.SignContractResponse;
import bisq.core.trade.messages.TradeMessage;
import bisq.core.trade.protocol.TakerProtocol.TakerEvent;
import bisq.core.trade.protocol.tasks.ApplyFilter;
import bisq.core.trade.protocol.tasks.ProcessDepositResponse;
import bisq.core.trade.protocol.tasks.ProcessInitMultisigRequest;
@ -56,11 +58,12 @@ import bisq.core.trade.protocol.tasks.taker.TakerSendsInitTradeRequestToArbitrat
import bisq.core.trade.protocol.tasks.taker.TakerVerifyMakerFeePayment;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
import static com.google.common.base.Preconditions.checkNotNull;
@ -83,150 +86,198 @@ public class BuyerAsTakerProtocol extends BuyerProtocol implements TakerProtocol
///////////////////////////////////////////////////////////////////////////////////////////
// User interaction: Take offer
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): this implementation is duplicated with SellerAsTakerProtocol
@Override
public void onTakeOffer(TradeResultHandler tradeResultHandler, ErrorMessageHandler errorMessageHandler) {
System.out.println("onTakeOffer()");
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class) // TODO (woodser): app hangs if this pipeline fails. use .using() like below
.using(new TradeTaskRunner(trade,
() -> { },
errorMessageHandler))
.withTimeout(30))
.executeTasks();
}
///////////////////////////////////////////////////////////////////////////////////////////
// TakerProtocol
// Take offer
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): these methods are duplicated with SellerAsTakerProtocol due to single inheritance
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsTakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
public void onTakeOffer(TradeResultHandler tradeResultHandler,
ErrorMessageHandler errorMessageHandler) {
System.out.println(getClass().getCanonicalName() + ".onTakeOffer()");
synchronized (trade) {
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state != State.CONTRACT_SIGNATURE_REQUESTED) return;
handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
CountDownLatch latch = new CountDownLatch(1);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) // TODO (woodser): rename to RECEIVED_DEPOSIT_TX_PUBLISHED_MSG
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}
///////////////////////////////////////////////////////////////////////////////////////////

View file

@ -33,7 +33,7 @@ import bisq.core.trade.protocol.tasks.buyer.BuyerSendCounterCurrencyTransferStar
import bisq.core.trade.protocol.tasks.buyer.BuyerSetupPayoutTxListener;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
@ -127,27 +127,31 @@ public abstract class BuyerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
public void onPaymentStarted(ResultHandler resultHandler, ErrorMessageHandler errorMessageHandler) {
BuyerEvent event = BuyerEvent.PAYMENT_SENT;
expect(phase(Trade.Phase.DEPOSIT_CONFIRMED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
UpdateMultisigWithTradingPeer.class,
BuyerCreateAndSignPayoutTx.class,
BuyerSetupPayoutTxListener.class,
BuyerSendCounterCurrencyTransferStartedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
},
(errorMessage) -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED))
.executeTasks();
System.out.println("BuyerProtocol.onPaymentStarted()");
synchronized (trade) { // TODO (woodser): UpdateMultisigWithTradingPeer sends UpdateMultisigRequest and waits for UpdateMultisigResponse which is new thread, so synchronized (trade) in subsequent pipeline blocks forever if we hold on with countdown latch in this function
System.out.println("BuyerProtocol.onPaymentStarted() has the lock!!!");
BuyerEvent event = BuyerEvent.PAYMENT_SENT;
expect(phase(Trade.Phase.DEPOSIT_CONFIRMED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
UpdateMultisigWithTradingPeer.class,
BuyerCreateAndSignPayoutTx.class,
BuyerSetupPayoutTxListener.class,
BuyerSendCounterCurrencyTransferStartedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
},
(errorMessage) -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED))
.executeTasks();
}
}
///////////////////////////////////////////////////////////////////////////////////////////
@ -155,22 +159,29 @@ public abstract class BuyerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
protected void handle(PayoutTxPublishedMessage message, NodeAddress peer) {
processModel.setTradeMessage(message);
processModel.setTempTradingPeerNodeAddress(peer);
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(message)
.from(peer))
.setup(tasks(
getVerifyPeersFeePaymentClass(),
BuyerProcessPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
handleTaskRunnerFault(peer, message, errorMessage);
})))
.executeTasks();
log.info("BuyerProtocol.handle(PayoutTxPublishedMessage)");
synchronized (trade) {
processModel.setTradeMessage(message);
processModel.setTempTradingPeerNodeAddress(peer);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(message)
.from(peer))
.setup(tasks(
getVerifyPeersFeePaymentClass(),
BuyerProcessPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(peer, message, errorMessage);
})))
.executeTasks();
wait(latch);
}
}

View file

@ -91,27 +91,29 @@ public class FluentProtocol {
}
return this;
}
synchronized (tradeProtocol.trade) {
if (setup.getTimeoutSec() > 0) {
tradeProtocol.startTimeout(setup.getTimeoutSec());
}
if (setup.getTimeoutSec() > 0) {
tradeProtocol.startTimeout(setup.getTimeoutSec());
NodeAddress peer = condition.getPeer();
if (peer != null) {
tradeProtocol.processModel.setTempTradingPeerNodeAddress(peer); // TODO (woodser): node has multiple peers (arbitrator and maker or taker), but fluent protocol assumes only one
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeMessage message = condition.getMessage();
if (message != null) {
tradeProtocol.processModel.setTradeMessage(message);
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeTaskRunner taskRunner = setup.getTaskRunner(peer, message, condition.getEvent());
taskRunner.addTasks(setup.getTasks());
taskRunner.run();
return this;
}
NodeAddress peer = condition.getPeer();
if (peer != null) {
tradeProtocol.processModel.setTempTradingPeerNodeAddress(peer); // TODO (woodser): node has multiple peers (arbitrator and maker or taker), but fluent protocol assumes only one
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeMessage message = condition.getMessage();
if (message != null) {
tradeProtocol.processModel.setTradeMessage(message);
tradeProtocol.processModel.getTradeManager().requestPersistence();
}
TradeTaskRunner taskRunner = setup.getTaskRunner(peer, message, condition.getEvent());
taskRunner.addTasks(setup.getTasks());
taskRunner.run();
return this;
}

View file

@ -181,14 +181,11 @@ public class ProcessModel implements Model, PersistablePayload {
@Nullable
@Getter
@Setter
private boolean multisigSetupComplete;
private String multisigAddress;
@Nullable
@Getter
@Setter
private boolean makerReadyToFundMultisig; // TODO (woodser): remove
@Getter
@Setter
private boolean multisigDepositInitiated;
private boolean multisigSetupComplete; // TODO (woodser): redundant with multisigAddress existing, remove
@Nullable
transient private MoneroTxWallet buyerSignedPayoutTx; // TODO (woodser): remove
@ -251,9 +248,8 @@ public class ProcessModel implements Model, PersistablePayload {
Optional.ofNullable(backupArbitrator).ifPresent(e -> builder.setBackupArbitrator(backupArbitrator.toProtoMessage()));
Optional.ofNullable(preparedMultisigHex).ifPresent(e -> builder.setPreparedMultisigHex(preparedMultisigHex));
Optional.ofNullable(madeMultisigHex).ifPresent(e -> builder.setMadeMultisigHex(madeMultisigHex));
Optional.ofNullable(multisigAddress).ifPresent(e -> builder.setMultisigAddress(multisigAddress));
Optional.ofNullable(multisigSetupComplete).ifPresent(e -> builder.setMultisigSetupComplete(multisigSetupComplete));
Optional.ofNullable(makerReadyToFundMultisig).ifPresent(e -> builder.setMakerReadyToFundMultisig(makerReadyToFundMultisig));
Optional.ofNullable(multisigDepositInitiated).ifPresent(e -> builder.setMultisigSetupComplete(multisigDepositInitiated));
return builder.build();
}
@ -284,9 +280,8 @@ public class ProcessModel implements Model, PersistablePayload {
processModel.setBackupArbitrator(proto.hasBackupArbitrator() ? NodeAddress.fromProto(proto.getBackupArbitrator()) : null);
processModel.setPreparedMultisigHex(ProtoUtil.stringOrNullFromProto(proto.getPreparedMultisigHex()));
processModel.setMadeMultisigHex(ProtoUtil.stringOrNullFromProto(proto.getMadeMultisigHex()));
processModel.setMultisigAddress(ProtoUtil.stringOrNullFromProto(proto.getMultisigAddress()));
processModel.setMultisigSetupComplete(proto.getMultisigSetupComplete());
processModel.setMakerReadyToFundMultisig(proto.getMakerReadyToFundMultisig());
processModel.setMultisigDepositInitiated(proto.getMultisigDepositInitiated());
String paymentStartedMessageStateString = ProtoUtil.stringOrNullFromProto(proto.getPaymentStartedMessageState());
MessageState paymentStartedMessageState = ProtoUtil.enumFromProto(MessageState.class, paymentStartedMessageStateString);

View file

@ -20,6 +20,7 @@ package bisq.core.trade.protocol;
import bisq.core.trade.SellerAsMakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.messages.CounterCurrencyTransferStartedMessage;
import bisq.core.trade.messages.DepositResponse;
import bisq.core.trade.messages.DepositTxMessage;
@ -47,11 +48,12 @@ import bisq.core.trade.protocol.tasks.seller_as_maker.SellerAsMakerFinalizesDepo
import bisq.core.trade.protocol.tasks.seller_as_maker.SellerAsMakerProcessDepositTxMessage;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
@Slf4j
public class SellerAsMakerProtocol extends SellerProtocol implements MakerProtocol {
@ -74,142 +76,191 @@ public class SellerAsMakerProtocol extends SellerProtocol implements MakerProtoc
public void handleInitTradeRequest(InitTradeRequest message,
NodeAddress peer,
ErrorMessageHandler errorMessageHandler) {
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitTradeRequest()");
synchronized (trade) {
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(message)
.from(peer))
.setup(tasks(
ProcessInitTradeRequest.class,
//ApplyFilter.class, // TODO (woodser): these checks apply when maker signs availability request, but not here
//VerifyPeersAccountAgeWitness.class, // TODO (woodser): these checks apply after in multisig, means if rejected need to reimburse other's fee
MakerSendsInitTradeRequestIfUnreserved.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(peer, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(peer, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message); // TODO (woodser): synchronize access since concurrent requests processed
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.CONTRACT_SIGNATURE_REQUESTED) handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("BuyerAsMakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG)
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class,
MakerRemovesOpenOffer.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}
///////////////////////////////////////////////////////////////////////////////////////////

View file

@ -21,6 +21,7 @@ package bisq.core.trade.protocol;
import bisq.core.offer.Offer;
import bisq.core.trade.SellerAsTakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.handlers.TradeResultHandler;
import bisq.core.trade.messages.CounterCurrencyTransferStartedMessage;
import bisq.core.trade.messages.DepositResponse;
@ -51,11 +52,12 @@ import bisq.core.trade.protocol.tasks.taker.TakerVerifyMakerFeePayment;
import bisq.core.util.Validator;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
import lombok.extern.slf4j.Slf4j;
import org.fxmisc.easybind.EasyBind;
import static com.google.common.base.Preconditions.checkNotNull;
@ -76,150 +78,198 @@ public class SellerAsTakerProtocol extends SellerProtocol implements TakerProtoc
///////////////////////////////////////////////////////////////////////////////////////////
// User interaction: Take offer
// Take offer
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): these methods are duplicated with BuyerAsTakerProtocol due to single inheritance
@Override
public void onTakeOffer(TradeResultHandler tradeResultHandler,
ErrorMessageHandler errorMessageHandler) {
System.out.println("onTakeOffer()");
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class)
.using(new TradeTaskRunner(trade,
() -> { },
errorMessageHandler))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".onTakeOffer()");
synchronized (trade) {
this.tradeResultHandler = tradeResultHandler;
this.errorMessageHandler = errorMessageHandler;
CountDownLatch latch = new CountDownLatch(1);
expect(phase(Trade.Phase.INIT)
.with(TakerEvent.TAKE_OFFER)
.from(trade.getTradingPeerNodeAddress()))
.setup(tasks(
ApplyFilter.class,
TakerReservesTradeFunds.class,
TakerSendsInitTradeRequestToArbitrator.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
///////////////////////////////////////////////////////////////////////////////////////////
// TakerProtocol
///////////////////////////////////////////////////////////////////////////////////////////
// TODO (woodser): these methods are duplicated with BuyerAsTakerProtocol due to single inheritance
@Override
public void handleInitMultisigRequest(InitMultisigRequest request, NodeAddress sender) {
System.out.println("BuyerAsTakerProtocol.handleInitMultisigRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleInitMultisigRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(request)
.from(sender))
.setup(tasks(
ProcessInitMultisigRequest.class,
SendSignContractRequestAfterMultisig.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, request);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractRequest(SignContractRequest message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractRequest()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handleSignContractResponse(SignContractResponse message, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleSignContractResponse()");
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
expect(anyPhase(Trade.Phase.INIT)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, message, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleSignContractResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
if (trade.getState() == State.CONTRACT_SIGNATURE_REQUESTED) {
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(message)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessSignContractResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, message);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, message, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state != State.CONTRACT_SIGNATURE_REQUESTED) return;
handleSignContractResponse(message, sender);
});
}
}
}
@Override
public void handleDepositResponse(DepositResponse response, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handleDepositResponse()");
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, response, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handleDepositResponse()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), response);
processModel.setTradeMessage(response);
CountDownLatch latch = new CountDownLatch(1);
expect(state(Trade.State.CONTRACT_SIGNATURE_REQUESTED)
.with(response)
.from(sender))
.setup(tasks(
// TODO (woodser): validate request
ProcessDepositResponse.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
handleTaskRunnerSuccess(sender, response);
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, response, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
}
}
@Override
public void handlePaymentAccountPayloadRequest(PaymentAccountPayloadRequest request, NodeAddress sender) {
System.out.println("SellerAsTakerProtocol.handlePaymentAccountPayloadRequest()");
Validator.checkTradeId(processModel.getOfferId(), request);
processModel.setTradeMessage(request);
expect(anyPhase(Trade.Phase.INIT, Trade.Phase.DEPOSIT_PUBLISHED) // TODO: only deposit_published should be expected
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(sender, request, errorMessage);
}))
.withTimeout(30))
.executeTasks();
System.out.println(getClass().getCanonicalName() + ".handlePaymentAccountPayloadRequest()");
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), request);
CountDownLatch latch = new CountDownLatch(1);
if (trade.getState() == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) {
processModel.setTradeMessage(request);
expect(state(Trade.State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) // TODO (woodser): rename to RECEIVED_DEPOSIT_TX_PUBLISHED_MSG
.with(request)
.from(sender)) // TODO (woodser): ensure this asserts sender == response.getSenderNodeAddress()
.setup(tasks(
// TODO (woodser): validate request
ProcessPaymentAccountPayloadRequest.class)
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
stopTimeout();
handleTaskRunnerSuccess(sender, request);
tradeResultHandler.handleResult(trade); // trade is initialized
},
errorMessage -> {
latch.countDown();
handleTaskRunnerFault(sender, request, errorMessage);
errorMessageHandler.handleErrorMessage(errorMessage);
}))
.withTimeout(TRADE_TIMEOUT))
.executeTasks();
wait(latch);
} else {
EasyBind.subscribe(trade.stateProperty(), state -> {
if (state == State.MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG) handlePaymentAccountPayloadRequest(request, sender);
});
}
}
}

View file

@ -30,7 +30,7 @@ import bisq.core.trade.protocol.tasks.seller.SellerSendPayoutTxPublishedMessage;
import bisq.core.trade.protocol.tasks.seller.SellerSignAndPublishPayoutTx;
import bisq.network.p2p.NodeAddress;
import java.util.concurrent.CountDownLatch;
import bisq.common.handlers.ErrorMessageHandler;
import bisq.common.handlers.ResultHandler;
@ -77,27 +77,39 @@ public abstract class SellerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
protected void handle(CounterCurrencyTransferStartedMessage message, NodeAddress peer) {
log.info("SellerProtocol.handle(CounterCurrencyTransferStartedMessage)");
// We are more tolerant with expected phase and allow also DEPOSIT_PUBLISHED as it can be the case
// that the wallet is still syncing and so the DEPOSIT_CONFIRMED state to yet triggered when we received
// a mailbox message with CounterCurrencyTransferStartedMessage.
// TODO A better fix would be to add a listener for the wallet sync state and process
// the mailbox msg once wallet is ready and trade state set.
expect(anyPhase(Trade.Phase.DEPOSIT_CONFIRMED, Trade.Phase.DEPOSIT_PUBLISHED)
.with(message)
.from(peer)
.preCondition(trade.getPayoutTx() == null,
() -> {
log.warn("We received a CounterCurrencyTransferStartedMessage but we have already created the payout tx " +
"so we ignore the message. This can happen if the ACK message to the peer did not " +
"arrive and the peer repeats sending us the message. We send another ACK msg.");
sendAckMessage(peer, message, true, null);
removeMailboxMessageAfterProcessing(message);
}))
.setup(tasks(
SellerProcessCounterCurrencyTransferStartedMessage.class,
ApplyFilter.class,
getVerifyPeersFeePaymentClass()))
.executeTasks();
synchronized (trade) {
CountDownLatch latch = new CountDownLatch(1);
expect(anyPhase(Trade.Phase.DEPOSIT_CONFIRMED, Trade.Phase.DEPOSIT_PUBLISHED)
.with(message)
.from(peer)
.preCondition(trade.getPayoutTx() == null,
() -> {
log.warn("We received a CounterCurrencyTransferStartedMessage but we have already created the payout tx " +
"so we ignore the message. This can happen if the ACK message to the peer did not " +
"arrive and the peer repeats sending us the message. We send another ACK msg.");
sendAckMessage(peer, message, true, null);
removeMailboxMessageAfterProcessing(message);
}))
.setup(tasks(
SellerProcessCounterCurrencyTransferStartedMessage.class,
ApplyFilter.class,
getVerifyPeersFeePaymentClass())
.using(new TradeTaskRunner(trade,
() -> {
latch.countDown();
},
(errorMessage) -> {
latch.countDown();
})))
.executeTasks();
wait(latch);
}
}
///////////////////////////////////////////////////////////////////////////////////////////
@ -105,26 +117,33 @@ public abstract class SellerProtocol extends DisputeProtocol {
///////////////////////////////////////////////////////////////////////////////////////////
public void onPaymentReceived(ResultHandler resultHandler, ErrorMessageHandler errorMessageHandler) {
SellerEvent event = SellerEvent.PAYMENT_RECEIVED;
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(
ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
SellerSignAndPublishPayoutTx.class,
// SellerSignAndFinalizePayoutTx.class,
// SellerBroadcastPayoutTx.class,
SellerSendPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade, () -> {
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
}, (errorMessage) -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT))
.executeTasks();
log.info("SellerProtocol.onPaymentReceived()");
synchronized (trade) {
CountDownLatch latch = new CountDownLatch(1);
SellerEvent event = SellerEvent.PAYMENT_RECEIVED;
expect(anyPhase(Trade.Phase.FIAT_SENT, Trade.Phase.PAYOUT_PUBLISHED)
.with(event)
.preCondition(trade.confirmPermitted()))
.setup(tasks(
ApplyFilter.class,
getVerifyPeersFeePaymentClass(),
SellerSignAndPublishPayoutTx.class,
// SellerSignAndFinalizePayoutTx.class,
// SellerBroadcastPayoutTx.class,
SellerSendPayoutTxPublishedMessage.class)
.using(new TradeTaskRunner(trade, () -> {
latch.countDown();
resultHandler.handleResult();
handleTaskRunnerSuccess(event);
}, (errorMessage) -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(event, errorMessage);
})))
.run(() -> trade.setState(Trade.State.SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT))
.executeTasks();
wait(latch);
}
}

View file

@ -49,6 +49,7 @@ import bisq.common.taskrunner.Task;
import java.util.Collection;
import java.util.Collections;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;
import lombok.extern.slf4j.Slf4j;
@ -58,6 +59,8 @@ import javax.annotation.Nullable;
@Slf4j
public abstract class TradeProtocol implements DecryptedDirectMessageListener, DecryptedMailboxListener {
public static final int TRADE_TIMEOUT = 60;
protected final ProcessModel processModel;
protected final Trade trade;
private Timer timeoutTimer;
@ -213,23 +216,28 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
// TODO (woodser): update to use fluent for consistency
public void handleUpdateMultisigRequest(UpdateMultisigRequest message, NodeAddress peer, ErrorMessageHandler errorMessageHandler) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
TradeTaskRunner taskRunner = new TradeTaskRunner(trade,
() -> {
stopTimeout();
handleTaskRunnerSuccess(peer, message, "handleUpdateMultisigRequest");
},
errorMessage -> {
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
});
taskRunner.addTasks(
ProcessUpdateMultisigRequest.class
);
startTimeout(60); // TODO (woodser): what timeout to use? don't hardcode
taskRunner.run();
synchronized (trade) {
Validator.checkTradeId(processModel.getOfferId(), message);
processModel.setTradeMessage(message);
CountDownLatch latch = new CountDownLatch(1);
TradeTaskRunner taskRunner = new TradeTaskRunner(trade,
() -> {
stopTimeout();
latch.countDown();
handleTaskRunnerSuccess(peer, message, "handleUpdateMultisigRequest");
},
errorMessage -> {
latch.countDown();
errorMessageHandler.handleErrorMessage(errorMessage);
handleTaskRunnerFault(peer, message, errorMessage);
});
taskRunner.addTasks(
ProcessUpdateMultisigRequest.class
);
startTimeout(TRADE_TIMEOUT);
taskRunner.run();
wait(latch);
}
}
@ -265,6 +273,14 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
protected FluentProtocol.Condition anyPhase(Trade.Phase... expectedPhases) {
return new FluentProtocol.Condition(trade).anyPhase(expectedPhases);
}
protected FluentProtocol.Condition state(Trade.State expectedState) {
return new FluentProtocol.Condition(trade).state(expectedState);
}
protected FluentProtocol.Condition anyState(Trade.State... expectedStates) {
return new FluentProtocol.Condition(trade).anyState(expectedStates);
}
@SafeVarargs
public final FluentProtocol.Setup tasks(Class<? extends Task<Trade>>... tasks) {
@ -291,8 +307,11 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
log.info("Received AckMessage for {} from {} with tradeId {} and uid {}",
ackMessage.getSourceMsgClassName(), peer, trade.getId(), ackMessage.getSourceUid());
} else {
log.warn("Received AckMessage with error state for {} from {} with tradeId {} and errorMessage={}",
ackMessage.getSourceMsgClassName(), peer, trade.getId(), ackMessage.getErrorMessage());
String err = "Received AckMessage with error state for " + ackMessage.getSourceMsgClassName() +
" from "+ peer + " with tradeId " + trade.getId() + " and errorMessage=" + ackMessage.getErrorMessage();
log.warn(err);
stopTimeout();
if (errorMessageHandler != null) errorMessageHandler.handleErrorMessage(err);
}
}
@ -348,6 +367,14 @@ public abstract class TradeProtocol implements DecryptedDirectMessageListener, D
///////////////////////////////////////////////////////////////////////////////////////////
// Timeout
///////////////////////////////////////////////////////////////////////////////////////////
protected void wait(CountDownLatch latch) {
try {
latch.await();
} catch (InterruptedException e) {
throw new RuntimeException(e);
}
}
protected void startTimeout(long timeoutSec) {
stopTimeout();

View file

@ -40,10 +40,10 @@ import monero.daemon.MoneroDaemon;
import monero.wallet.MoneroWallet;
@Slf4j
public class ProcessDepositRequest extends TradeTask {
public class ArbitratorProcessesDepositRequest extends TradeTask {
@SuppressWarnings({"unused"})
public ProcessDepositRequest(TaskRunner taskHandler, Trade trade) {
public ArbitratorProcessesDepositRequest(TaskRunner taskHandler, Trade trade) {
super(taskHandler, trade);
}
@ -78,8 +78,7 @@ public class ProcessDepositRequest extends TradeTask {
boolean isFromTaker = request.getSenderNodeAddress().equals(trade.getTakerNodeAddress());
boolean isFromBuyer = isFromTaker ? offer.getDirection() == OfferPayload.Direction.SELL : offer.getDirection() == OfferPayload.Direction.BUY;
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(isFromBuyer ? offer.getBuyerSecurityDeposit() : offer.getAmount().add(offer.getSellerSecurityDeposit()));
MoneroWallet multisigWallet = processModel.getProvider().getXmrWalletService().getMultisigWallet(trade.getId()); // TODO (woodser): only get, do not create
String depositAddress = multisigWallet.getPrimaryAddress();
String depositAddress = processModel.getMultisigAddress();
BigInteger tradeFee;
TradingPeer trader = trade.getTradingPeer(request.getSenderNodeAddress());
if (trader == processModel.getMaker()) tradeFee = ParsingUtils.coinToAtomicUnits(trade.getOffer().getMakerFee());
@ -103,34 +102,30 @@ public class ProcessDepositRequest extends TradeTask {
null,
false);
// sychronize to send only one response
synchronized(processModel) {
// set deposit info
trader.setDepositTxHex(request.getDepositTxHex());
trader.setDepositTxKey(request.getDepositTxKey());
// relay deposit txs when both available
// TODO (woodser): add small delay so tx has head start against double spend attempts?
if (processModel.getMaker().getDepositTxHex() != null && processModel.getTaker().getDepositTxHex() != null) {
// set deposit info
trader.setDepositTxHex(request.getDepositTxHex());
trader.setDepositTxKey(request.getDepositTxKey());
// relay txs
daemon.submitTxHex(processModel.getMaker().getDepositTxHex()); // TODO (woodser): check that result is good. will need to release funds if one is submitted
daemon.submitTxHex(processModel.getTaker().getDepositTxHex());
// relay deposit txs when both available
// TODO (woodser): add small delay so tx has head start against double spend attempts?
if (processModel.getMaker().getDepositTxHex() != null && processModel.getTaker().getDepositTxHex() != null) {
// relay txs
daemon.submitTxHex(processModel.getMaker().getDepositTxHex());
daemon.submitTxHex(processModel.getTaker().getDepositTxHex());
// create deposit response
DepositResponse response = new DepositResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime());
// send deposit response to maker and taker
sendDepositResponse(trade.getMakerNodeAddress(), trade.getMakerPubKeyRing(), response);
sendDepositResponse(trade.getTakerNodeAddress(), trade.getTakerPubKeyRing(), response);
}
// create deposit response
DepositResponse response = new DepositResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime());
// send deposit response to maker and taker
sendDepositResponse(trade.getMakerNodeAddress(), trade.getMakerPubKeyRing(), response);
sendDepositResponse(trade.getTakerNodeAddress(), trade.getTakerPubKeyRing(), response);
}
// TODO (woodser): request persistence?

View file

@ -44,9 +44,6 @@ import monero.wallet.MoneroWallet;
@Slf4j
public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
private boolean takerAck;
private boolean makerAck;
@SuppressWarnings({"unused"})
public ArbitratorSendsInitTradeAndMultisigRequests(TaskRunner taskHandler, Trade trade) {
super(taskHandler, trade);
@ -97,14 +94,15 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
null,
null);
// listen for maker to ack InitTradeRequest
// send init multisig requests on ack // TODO (woodser): only send InitMultisigRequests if arbitrator has maker reserve tx, else wait for that
TradeListener listener = new TradeListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (sender.equals(trade.getMakerNodeAddress()) && ackMessage.getSourceMsgClassName().equals(InitTradeRequest.class.getSimpleName())) {
if (sender.equals(trade.getMakerNodeAddress()) &&
ackMessage.getSourceMsgClassName().equals(InitTradeRequest.class.getSimpleName()) &&
ackMessage.getSourceUid().equals(makerRequest.getUid())) {
trade.removeListener(this);
if (ackMessage.isSuccess()) sendInitMultisigRequests();
else failed("Received unsuccessful ack for InitTradeRequest from maker"); // TODO (woodser): maker should not do this, penalize them by broadcasting reserve tx?
}
}
};
@ -120,6 +118,7 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at maker: offerId={}; uid={}", makerRequest.getClass().getSimpleName(), makerRequest.getTradeId(), makerRequest.getUid());
complete();
}
@Override
public void onFault(String errorMessage) {
@ -172,8 +171,6 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at arbitrator: offerId={}; uid={}", initMultisigRequest.getClass().getSimpleName(), initMultisigRequest.getTradeId(), initMultisigRequest.getUid());
makerAck = true;
checkComplete();
}
@Override
public void onFault(String errorMessage) {
@ -194,8 +191,6 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at peer: offerId={}; uid={}", initMultisigRequest.getClass().getSimpleName(), initMultisigRequest.getTradeId(), initMultisigRequest.getUid());
takerAck = true;
checkComplete();
}
@Override
public void onFault(String errorMessage) {
@ -206,8 +201,4 @@ public class ArbitratorSendsInitTradeAndMultisigRequests extends TradeTask {
}
);
}
private void checkComplete() {
if (makerAck && takerAck) complete();
}
}

View file

@ -60,6 +60,7 @@ public class ProcessDepositResponse extends TradeTask {
processModel.getP2PService().sendEncryptedDirectMessage(trade.getTradingPeerNodeAddress(), trade.getTradingPeerPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
complete();
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getTradingPeerNodeAddress(), trade.getId());
}
@Override
@ -69,8 +70,6 @@ public class ProcessDepositResponse extends TradeTask {
failed();
}
});
complete();
} catch (Throwable t) {
failed(t);
}

View file

@ -52,8 +52,6 @@ public class ProcessInitMultisigRequest extends TradeTask {
private boolean ack1 = false;
private boolean ack2 = false;
private boolean failed = false;
private static Object lock = new Object();
MoneroWallet multisigWallet;
@SuppressWarnings({"unused"})
@ -71,120 +69,119 @@ public class ProcessInitMultisigRequest extends TradeTask {
checkTradeId(processModel.getOfferId(), request);
XmrWalletService xmrWalletService = processModel.getProvider().getXmrWalletService();
System.out.println("PROCESS MULTISIG MESSAGE");
System.out.println(request);
// System.out.println("PROCESS MULTISIG MESSAGE TRADE");
// System.out.println(trade);
// TODO (woodser): verify request including sender's signature in previous pipeline task
// TODO (woodser): run in separate thread to not block UI thread?
// TODO (woodser): validate message has expected sender in previous step
// synchronize access to wallet
synchronized (lock) {
// get peer multisig participant
TradingPeer multisigParticipant;
if (request.getSenderNodeAddress().equals(trade.getMakerNodeAddress())) multisigParticipant = processModel.getMaker();
else if (request.getSenderNodeAddress().equals(trade.getTakerNodeAddress())) multisigParticipant = processModel.getTaker();
else if (request.getSenderNodeAddress().equals(trade.getArbitratorNodeAddress())) multisigParticipant = processModel.getArbitrator();
else throw new RuntimeException("Invalid sender to process init trade message: " + trade.getClass().getName());
// get peer multisig participant
TradingPeer multisigParticipant;
if (request.getSenderNodeAddress().equals(trade.getMakerNodeAddress())) multisigParticipant = processModel.getMaker();
else if (request.getSenderNodeAddress().equals(trade.getTakerNodeAddress())) multisigParticipant = processModel.getTaker();
else if (request.getSenderNodeAddress().equals(trade.getArbitratorNodeAddress())) multisigParticipant = processModel.getArbitrator();
else throw new RuntimeException("Invalid sender to process init trade message: " + trade.getClass().getName());
// reconcile peer's established multisig hex with message
if (multisigParticipant.getPreparedMultisigHex() == null) multisigParticipant.setPreparedMultisigHex(request.getPreparedMultisigHex());
else if (!multisigParticipant.getPreparedMultisigHex().equals(request.getPreparedMultisigHex())) throw new RuntimeException("Message's prepared multisig differs from previous messages, previous: " + multisigParticipant.getPreparedMultisigHex() + ", message: " + request.getPreparedMultisigHex());
if (multisigParticipant.getMadeMultisigHex() == null) multisigParticipant.setMadeMultisigHex(request.getMadeMultisigHex());
else if (!multisigParticipant.getMadeMultisigHex().equals(request.getMadeMultisigHex())) throw new RuntimeException("Message's made multisig differs from previous messages: " + request.getMadeMultisigHex() + " versus " + multisigParticipant.getMadeMultisigHex());
// reconcile peer's established multisig hex with message
if (multisigParticipant.getPreparedMultisigHex() == null) multisigParticipant.setPreparedMultisigHex(request.getPreparedMultisigHex());
else if (!multisigParticipant.getPreparedMultisigHex().equals(request.getPreparedMultisigHex())) throw new RuntimeException("Message's prepared multisig differs from previous messages, previous: " + multisigParticipant.getPreparedMultisigHex() + ", message: " + request.getPreparedMultisigHex());
if (multisigParticipant.getMadeMultisigHex() == null) multisigParticipant.setMadeMultisigHex(request.getMadeMultisigHex());
else if (!multisigParticipant.getMadeMultisigHex().equals(request.getMadeMultisigHex())) throw new RuntimeException("Message's made multisig differs from previous messages");
// prepare multisig if applicable
boolean updateParticipants = false;
if (processModel.getPreparedMultisigHex() == null) {
System.out.println("Preparing multisig wallet!");
multisigWallet = xmrWalletService.createMultisigWallet(trade.getId());
processModel.setPreparedMultisigHex(multisigWallet.prepareMultisig());
updateParticipants = true;
} else {
multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
}
// make multisig if applicable
TradingPeer[] peers = getMultisigPeers();
if (processModel.getMadeMultisigHex() == null && peers[0].getPreparedMultisigHex() != null && peers[1].getPreparedMultisigHex() != null) {
System.out.println("Making multisig wallet!");
MoneroMultisigInitResult result = multisigWallet.makeMultisig(Arrays.asList(peers[0].getPreparedMultisigHex(), peers[1].getPreparedMultisigHex()), 2, xmrWalletService.getWalletPassword()); // TODO (woodser): xmrWalletService.makeMultisig(tradeId, multisigHexes, threshold)?
processModel.setMadeMultisigHex(result.getMultisigHex());
updateParticipants = true;
}
// exchange multisig keys if applicable
if (!processModel.isMultisigSetupComplete() && peers[0].getMadeMultisigHex() != null && peers[1].getMadeMultisigHex() != null) {
System.out.println("Exchanging multisig wallet!");
multisigWallet.exchangeMultisigKeys(Arrays.asList(peers[0].getMadeMultisigHex(), peers[1].getMadeMultisigHex()), xmrWalletService.getWalletPassword());
processModel.setMultisigSetupComplete(true);
}
// update multisig participants if new state to communicate
if (updateParticipants) {
// get destination addresses and pub key rings // TODO: better way, use getMultisigPeers()
NodeAddress peer1Address;
PubKeyRing peer1PubKeyRing;
NodeAddress peer2Address;
PubKeyRing peer2PubKeyRing;
if (trade instanceof ArbitratorTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getMakerNodeAddress();
peer2PubKeyRing = trade.getMakerPubKeyRing();
} else if (trade instanceof MakerTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
} else {
peer1Address = trade.getMakerNodeAddress();
peer1PubKeyRing = trade.getMakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
}
if (peer1Address == null) throw new RuntimeException("Peer1 address is null");
if (peer1PubKeyRing == null) throw new RuntimeException("Peer1 pub key ring is null");
if (peer2Address == null) throw new RuntimeException("Peer2 address is null");
if (peer2PubKeyRing == null) throw new RuntimeException("Peer2 pub key ring null");
// complete on successful ack messages
TradeListener ackListener = new TradeListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (!ackMessage.getSourceMsgClassName().equals(InitMultisigRequest.class.getSimpleName())) return;
if (ackMessage.isSuccess()) {
if (sender.equals(peer1Address)) ack1 = true;
if (sender.equals(peer2Address)) ack2 = true;
if (ack1 && ack2) {
trade.removeListener(this);
completeAux();
}
} else {
if (!failed) {
failed = true;
failed(ackMessage.getErrorMessage()); // TODO: (woodser): only fail once? build into task?
}
}
}
};
trade.addListener(ackListener);
// send to peers
sendInitMultisigRequest(peer1Address, peer1PubKeyRing);
sendInitMultisigRequest(peer2Address, peer2PubKeyRing);
} else {
completeAux();
}
// prepare multisig if applicable
boolean updateParticipants = false;
if (processModel.getPreparedMultisigHex() == null) {
log.info("Preparing multisig wallet for trade {}", trade.getId());
multisigWallet = xmrWalletService.createMultisigWallet(trade.getId());
processModel.setPreparedMultisigHex(multisigWallet.prepareMultisig());
updateParticipants = true;
} else if (!processModel.isMultisigSetupComplete()) {
multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
}
} catch (Throwable t) {
failed(t);
}
// make multisig if applicable
TradingPeer[] peers = getMultisigPeers();
if (processModel.getMadeMultisigHex() == null && peers[0].getPreparedMultisigHex() != null && peers[1].getPreparedMultisigHex() != null) {
log.info("Making multisig wallet for trade {}", trade.getId());
MoneroMultisigInitResult result = multisigWallet.makeMultisig(Arrays.asList(peers[0].getPreparedMultisigHex(), peers[1].getPreparedMultisigHex()), 2, xmrWalletService.getWalletPassword()); // TODO (woodser): xmrWalletService.makeMultisig(tradeId, multisigHexes, threshold)?
processModel.setMadeMultisigHex(result.getMultisigHex());
updateParticipants = true;
}
// exchange multisig keys if applicable
if (!processModel.isMultisigSetupComplete() && peers[0].getMadeMultisigHex() != null && peers[1].getMadeMultisigHex() != null) {
log.info("Exchanging multisig wallet keys for trade {}", trade.getId());
multisigWallet.exchangeMultisigKeys(Arrays.asList(peers[0].getMadeMultisigHex(), peers[1].getMadeMultisigHex()), xmrWalletService.getWalletPassword());
processModel.setMultisigSetupComplete(true); // TODO: (woodser): remove this field?
processModel.setMultisigAddress(multisigWallet.getPrimaryAddress());
processModel.getProvider().getXmrWalletService().closeMultisigWallet(trade.getId()); // save and close multisig wallet once it's created
}
// update multisig participants if new state to communicate
if (updateParticipants) {
// get destination addresses and pub key rings // TODO: better way, use getMultisigPeers()
NodeAddress peer1Address;
PubKeyRing peer1PubKeyRing;
NodeAddress peer2Address;
PubKeyRing peer2PubKeyRing;
if (trade instanceof ArbitratorTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getMakerNodeAddress();
peer2PubKeyRing = trade.getMakerPubKeyRing();
} else if (trade instanceof MakerTrade) {
peer1Address = trade.getTakerNodeAddress();
peer1PubKeyRing = trade.getTakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
} else {
peer1Address = trade.getMakerNodeAddress();
peer1PubKeyRing = trade.getMakerPubKeyRing();
peer2Address = trade.getArbitratorNodeAddress();
peer2PubKeyRing = trade.getArbitratorPubKeyRing();
}
if (peer1Address == null) throw new RuntimeException("Peer1 address is null");
if (peer1PubKeyRing == null) throw new RuntimeException("Peer1 pub key ring is null");
if (peer2Address == null) throw new RuntimeException("Peer2 address is null");
if (peer2PubKeyRing == null) throw new RuntimeException("Peer2 pub key ring null");
// send to peer 1
sendInitMultisigRequest(peer1Address, peer1PubKeyRing, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), peer1Address, request.getTradeId(), request.getUid());
ack1 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), request.getUid(), peer1Address, errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
// send to peer 2
sendInitMultisigRequest(peer2Address, peer2PubKeyRing, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), peer2Address, request.getTradeId(), request.getUid());
ack2 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), request.getUid(), peer2Address, errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
} else {
completeAux();
}
} catch (Throwable t) {
failed(t);
}
}
private TradingPeer[] getMultisigPeers() {
@ -202,9 +199,9 @@ public class ProcessInitMultisigRequest extends TradeTask {
return peers;
}
private void sendInitMultisigRequest(NodeAddress recipient, PubKeyRing pubKeyRing) {
private void sendInitMultisigRequest(NodeAddress recipient, PubKeyRing pubKeyRing, SendDirectMessageListener listener) {
// create request with current multisig hex
// create multisig message with current multisig hex
InitMultisigRequest request = new InitMultisigRequest(
processModel.getOffer().getId(),
processModel.getMyNodeAddress(),
@ -214,24 +211,12 @@ public class ProcessInitMultisigRequest extends TradeTask {
new Date().getTime(),
processModel.getPreparedMultisigHex(),
processModel.getMadeMultisigHex());
log.info("Send {} with offerId {} and uid {} to peer {}", request.getClass().getSimpleName(), request.getTradeId(), request.getUid(), recipient);
processModel.getP2PService().sendEncryptedDirectMessage(recipient, pubKeyRing, request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), recipient, request.getTradeId(), request.getUid());
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), request.getUid(), recipient, errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
processModel.getP2PService().sendEncryptedDirectMessage(recipient, pubKeyRing, request, listener);
}
private void completeAux() {
multisigWallet.save();
complete();
}
}

View file

@ -60,13 +60,7 @@ public class ProcessPaymentAccountPayloadRequest extends TradeTask {
// set payment account payload
trade.getTradingPeer().setPaymentAccountPayload(paymentAccountPayload);
// subscribe to trade state to notify ui when deposit txs seen in network
tradeStateSubscription = EasyBind.subscribe(trade.stateProperty(), newValue -> {
if (trade.isDepositPublished()) applyPublishedDepositTxs();
});
if (trade.isDepositPublished()) applyPublishedDepositTxs(); // deposit txs might be seen before subcription
// persist and complete
processModel.getTradeManager().requestPersistence();
complete();
@ -74,14 +68,6 @@ public class ProcessPaymentAccountPayloadRequest extends TradeTask {
failed(t);
}
}
private void applyPublishedDepositTxs() {
MoneroWallet multisigWallet = processModel.getXmrWalletService().getMultisigWallet(trade.getId());
MoneroTxWallet makerDepositTx = checkNotNull(multisigWallet.getTx(processModel.getMaker().getDepositTxHash()));
MoneroTxWallet takerDepositTx = checkNotNull(multisigWallet.getTx(processModel.getTaker().getDepositTxHash()));
trade.applyDepositTxs(makerDepositTx, takerDepositTx);
UserThread.execute(this::unSubscribe); // remove trade state subscription at callback
}
private void unSubscribe() {
if (tradeStateSubscription != null) tradeStateSubscription.unsubscribe();

View file

@ -26,12 +26,11 @@ import bisq.common.util.Utilities;
import bisq.core.trade.ArbitratorTrade;
import bisq.core.trade.Contract;
import bisq.core.trade.Trade;
import bisq.core.trade.Trade.State;
import bisq.core.trade.TradeUtils;
import bisq.core.trade.messages.SignContractRequest;
import bisq.core.trade.messages.SignContractResponse;
import bisq.core.trade.protocol.TradeListener;
import bisq.core.trade.protocol.TradingPeer;
import bisq.network.p2p.AckMessage;
import bisq.network.p2p.NodeAddress;
import bisq.network.p2p.SendDirectMessageListener;
import java.util.Date;
@ -43,7 +42,6 @@ public class ProcessSignContractRequest extends TradeTask {
private boolean ack1 = false;
private boolean ack2 = false;
private boolean failed = false;
@SuppressWarnings({"unused"})
public ProcessSignContractRequest(TaskRunner taskHandler, Trade trade) {
@ -71,77 +69,71 @@ public class ProcessSignContractRequest extends TradeTask {
complete();
return;
}
// create and sign contract
Contract contract = TradeUtils.createContract(trade);
String contractAsJson = Utilities.objectToJson(contract);
String signature = Sig.sign(processModel.getKeyRing().getSignatureKeyPair().getPrivate(), contractAsJson);
// save contract and signature
trade.setContract(contract);
trade.setContractAsJson(contractAsJson);
trade.getSelf().setContractSignature(signature);
// create response with contract signature
SignContractResponse response = new SignContractResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime(),
signature);
// get response recipients. only arbitrator sends response to both peers
NodeAddress recipient1 = trade instanceof ArbitratorTrade ? trade.getMakerNodeAddress() : trade.getTradingPeerNodeAddress();
PubKeyRing recipient1PubKey = trade instanceof ArbitratorTrade ? trade.getMakerPubKeyRing() : trade.getTradingPeerPubKeyRing();
NodeAddress recipient2 = trade instanceof ArbitratorTrade ? trade.getTakerNodeAddress() : null;
PubKeyRing recipient2PubKey = trade instanceof ArbitratorTrade ? trade.getTakerPubKeyRing() : null;
// complete on successful ack messages
TradeListener ackListener = new TradeListener() {
// send response to recipient 1
processModel.getP2PService().sendEncryptedDirectMessage(recipient1, recipient1PubKey, response, new SendDirectMessageListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (!ackMessage.getSourceMsgClassName().equals(SignContractResponse.class.getSimpleName())) return;
if (ackMessage.isSuccess()) {
if (sender.equals(trade.getTradingPeerNodeAddress())) ack1 = true;
if (sender.equals(trade.getArbitratorNodeAddress())) ack2 = true;
if (trade instanceof ArbitratorTrade ? ack1 && ack2 : ack1) { // only arbitrator sends response to both peers
trade.removeListener(this);
complete();
}
} else {
if (!failed) {
failed = true;
failed(ackMessage.getErrorMessage()); // TODO: (woodser): only fail once? build into task?
}
}
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", response.getClass().getSimpleName(), recipient1, trade.getId());
ack1 = true;
if (ack1 && (recipient2 == null || ack2)) complete();
}
};
trade.addListener(ackListener);
// send contract signature response(s)
if (recipient1 != null) sendSignContractResponse(recipient1, recipient1PubKey, signature);
if (recipient2 != null) sendSignContractResponse(recipient2, recipient2PubKey, signature);
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", response.getClass().getSimpleName(), recipient1, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + response + "\nerrorMessage=" + errorMessage);
failed();
}
});
// send response to recipient 2 if applicable
if (recipient2 != null) {
processModel.getP2PService().sendEncryptedDirectMessage(recipient2, recipient2PubKey, response, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", response.getClass().getSimpleName(), recipient2, trade.getId());
ack2 = true;
if (ack1 && ack2) complete();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", response.getClass().getSimpleName(), recipient2, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + response + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
// update trade state
trade.setState(State.CONTRACT_SIGNATURE_REQUESTED);
} catch (Throwable t) {
failed(t);
}
}
private void sendSignContractResponse(NodeAddress nodeAddress, PubKeyRing pubKeyRing, String contractSignature) {
// create response with contract signature
SignContractResponse response = new SignContractResponse(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime(),
contractSignature);
// send request
processModel.getP2PService().sendEncryptedDirectMessage(nodeAddress, pubKeyRing, response, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", response.getClass().getSimpleName(), nodeAddress, trade.getId());
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", response.getClass().getSimpleName(), nodeAddress, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + response + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
}

View file

@ -27,7 +27,6 @@ import bisq.core.trade.messages.DepositRequest;
import bisq.core.trade.messages.SignContractResponse;
import bisq.core.trade.protocol.TradingPeer;
import bisq.network.p2p.SendDirectMessageListener;
import common.utils.GenUtils;
import java.util.Date;
import java.util.UUID;
import lombok.extern.slf4j.Slf4j;
@ -44,18 +43,12 @@ public class ProcessSignContractResponse extends TradeTask {
protected void run() {
try {
runInterceptHook();
// wait until contract is available from peer's sign contract request
// TODO (woodser): this will loop if peer disappears; use proper notification
while (trade.getContract() == null) {
GenUtils.waitFor(250);
}
// get contract and signature
String contractAsJson = trade.getContractAsJson();
SignContractResponse response = (SignContractResponse) processModel.getTradeMessage(); // TODO (woodser): verify response
String signature = response.getContractSignature();
// get peer info
// TODO (woodser): make these utilities / refactor model
PubKeyRing peerPubKeyRing;
@ -64,20 +57,20 @@ public class ProcessSignContractResponse extends TradeTask {
else if (peer == processModel.getMaker()) peerPubKeyRing = trade.getMakerPubKeyRing();
else if (peer == processModel.getTaker()) peerPubKeyRing = trade.getTakerPubKeyRing();
else throw new RuntimeException(response.getClass().getSimpleName() + " is not from maker, taker, or arbitrator");
// verify signature
// TODO (woodser): transfer contract for convenient comparison?
if (!Sig.verify(peerPubKeyRing.getSignaturePubKey(), contractAsJson, signature)) throw new RuntimeException("Peer's contract signature is invalid");
// set peer's signature
peer.setContractSignature(signature);
// send deposit request when all contract signatures received
if (processModel.getArbitrator().getContractSignature() != null && processModel.getMaker().getContractSignature() != null && processModel.getTaker().getContractSignature() != null) {
// start listening for deposit txs
trade.setupDepositTxsListener();
trade.listenForDepositTxs();
// create request for arbitrator to deposit funds to multisig
DepositRequest request = new DepositRequest(
trade.getOffer().getId(),
@ -89,12 +82,14 @@ public class ProcessSignContractResponse extends TradeTask {
trade.getSelf().getContractSignature(),
processModel.getDepositTxXmr().getFullHex(),
processModel.getDepositTxXmr().getKey());
// send request to arbitrator
processModel.getP2PService().sendEncryptedDirectMessage(trade.getArbitratorNodeAddress(), trade.getArbitratorPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getArbitratorNodeAddress(), trade.getId());
processModel.getTradeManager().requestPersistence();
complete();
}
@Override
public void onFault(String errorMessage) {
@ -103,11 +98,9 @@ public class ProcessSignContractResponse extends TradeTask {
failed();
}
});
} else {
complete(); // does not yet have needed signatures
}
// persist and complete
processModel.getTradeManager().requestPersistence();
complete();
} catch (Throwable t) {
failed(t);
}

View file

@ -74,6 +74,9 @@ public class ProcessUpdateMultisigRequest extends TradeTask {
// import the multisig hex
int numOutputsSigned = multisigWallet.importMultisigHex(Arrays.asList(request.getUpdatedMultisigHex()));
System.out.println("Num outputs signed by imported multisig hex: " + numOutputsSigned);
// close multisig wallet
processModel.getProvider().getXmrWalletService().closeMultisigWallet(trade.getId());
// respond with updated multisig hex
UpdateMultisigResponse response = new UpdateMultisigResponse(
@ -90,9 +93,6 @@ public class ProcessUpdateMultisigRequest extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at trading peer: offerId={}; uid={}", response.getClass().getSimpleName(), response.getTradeId(), response.getUid());
// save multisig wallet
multisigWallet.save(); // TODO (woodser): save on each step or after multisig wallets created?
complete();
}
@Override

View file

@ -44,9 +44,8 @@ import monero.wallet.model.MoneroTxWallet;
@Slf4j
public class SendSignContractRequestAfterMultisig extends TradeTask {
private boolean ack1 = false;
private boolean ack1 = false; // TODO (woodser) these represent onArrived(), not the ack
private boolean ack2 = false;
private boolean failed = false;
@SuppressWarnings({"unused"})
public SendSignContractRequestAfterMultisig(TaskRunner taskHandler, Trade trade) {
@ -57,97 +56,94 @@ public class SendSignContractRequestAfterMultisig extends TradeTask {
protected void run() {
try {
runInterceptHook();
// skip if multisig wallet not complete
if (!processModel.isMultisigSetupComplete()) return; // TODO: woodser: this does not ack original request?
// skip if deposit tx already created
if (processModel.getDepositTxXmr() != null) return;
// thaw reserved outputs
MoneroWallet wallet = trade.getXmrWalletService().getWallet();
for (String reserveTxKeyImage : trade.getSelf().getReserveTxKeyImages()) {
wallet.thawOutput(reserveTxKeyImage);
}
// create deposit tx
BigInteger tradeFee = ParsingUtils.coinToAtomicUnits(trade instanceof MakerTrade ? trade.getOffer().getMakerFee() : trade.getTakerFee());
Offer offer = processModel.getOffer();
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(trade instanceof SellerTrade ? offer.getAmount().add(offer.getSellerSecurityDeposit()) : offer.getBuyerSecurityDeposit());
MoneroWallet multisigWallet = processModel.getProvider().getXmrWalletService().getMultisigWallet(trade.getId());
String multisigAddress = multisigWallet.getPrimaryAddress();
MoneroTxWallet depositTx = TradeUtils.createDepositTx(trade.getXmrWalletService(), tradeFee, multisigAddress, depositAmount);
// freeze deposit outputs
// TODO (woodser): save frozen key images and unfreeze if trade fails before deposited to multisig
for (MoneroOutput input : depositTx.getInputs()) {
wallet.freezeOutput(input.getKeyImage().getHex());
}
// save process state
processModel.setDepositTxXmr(depositTx);
trade.getSelf().setDepositTxHash(depositTx.getHash());
// complete on successful ack messages
TradeListener ackListener = new TradeListener() {
@Override
public void onAckMessage(AckMessage ackMessage, NodeAddress sender) {
if (!ackMessage.getSourceMsgClassName().equals(SignContractRequest.class.getSimpleName())) return;
if (ackMessage.isSuccess()) {
if (sender.equals(trade.getTradingPeerNodeAddress())) ack1 = true;
if (sender.equals(trade.getArbitratorNodeAddress())) ack2 = true;
if (ack1 && ack2) {
trade.removeListener(this);
completeAux();
}
} else {
if (!failed) {
failed = true;
failed(ackMessage.getErrorMessage()); // TODO: (woodser): only fail once? build into task?
}
}
synchronized (trade.getXmrWalletService().getWallet()) { // synchronize on wallet to create deposit tx and freeze funds
// skip if multisig wallet not complete
if (!processModel.isMultisigSetupComplete()) {
complete();
return; // TODO: woodser: this does not ack original request?
}
// skip if deposit tx already created
if (processModel.getDepositTxXmr() != null) {
complete();
return;
}
};
trade.addListener(ackListener);
// send sign contract requests to peer and arbitrator
sendSignContractRequest(trade.getTradingPeerNodeAddress(), trade.getTradingPeerPubKeyRing(), offer, depositTx);
sendSignContractRequest(trade.getArbitratorNodeAddress(), trade.getArbitratorPubKeyRing(), offer, depositTx);
// thaw reserved outputs
MoneroWallet wallet = trade.getXmrWalletService().getWallet();
for (String reserveTxKeyImage : trade.getSelf().getReserveTxKeyImages()) {
wallet.thawOutput(reserveTxKeyImage);
}
// create deposit tx
BigInteger tradeFee = ParsingUtils.coinToAtomicUnits(trade instanceof MakerTrade ? trade.getOffer().getMakerFee() : trade.getTakerFee());
Offer offer = processModel.getOffer();
BigInteger depositAmount = ParsingUtils.coinToAtomicUnits(trade instanceof SellerTrade ? offer.getAmount().add(offer.getSellerSecurityDeposit()) : offer.getBuyerSecurityDeposit());
String multisigAddress = processModel.getMultisigAddress();
MoneroTxWallet depositTx = TradeUtils.createDepositTx(trade.getXmrWalletService(), tradeFee, multisigAddress, depositAmount);
// freeze deposit outputs
// TODO (woodser): save frozen key images and unfreeze if trade fails before deposited to multisig
for (MoneroOutput input : depositTx.getInputs()) {
wallet.freezeOutput(input.getKeyImage().getHex());
}
// save process state
processModel.setDepositTxXmr(depositTx);
trade.getSelf().setDepositTxHash(depositTx.getHash());
// create request for peer and arbitrator to sign contract
SignContractRequest request = new SignContractRequest(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(),
Version.getP2PMessageVersion(),
new Date().getTime(),
trade.getProcessModel().getAccountId(),
trade.getProcessModel().getPaymentAccountPayload(trade).getHash(),
trade.getXmrWalletService().getAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).get().getAddressString(),
depositTx.getHash());
// send request to trading peer
processModel.getP2PService().sendEncryptedDirectMessage(trade.getTradingPeerNodeAddress(), trade.getTradingPeerPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getTradingPeerNodeAddress(), trade.getId());
ack1 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), trade.getTradingPeerNodeAddress(), trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
// send request to arbitrator
processModel.getP2PService().sendEncryptedDirectMessage(trade.getArbitratorNodeAddress(), trade.getArbitratorPubKeyRing(), request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), trade.getArbitratorNodeAddress(), trade.getId());
ack2 = true;
if (ack1 && ack2) completeAux();
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), trade.getArbitratorNodeAddress(), trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
} catch (Throwable t) {
failed(t);
}
}
private void sendSignContractRequest(NodeAddress nodeAddress, PubKeyRing pubKeyRing, Offer offer, MoneroTxWallet depositTx) {
// create request to sign contract
SignContractRequest request = new SignContractRequest(
trade.getOffer().getId(),
processModel.getMyNodeAddress(),
processModel.getPubKeyRing(),
UUID.randomUUID().toString(), // TODO: ensure not reusing request id across protocol
Version.getP2PMessageVersion(),
new Date().getTime(),
trade.getProcessModel().getAccountId(),
trade.getProcessModel().getPaymentAccountPayload(trade).getHash(),
trade.getXmrWalletService().getAddressEntry(offer.getId(), XmrAddressEntry.Context.TRADE_PAYOUT).get().getAddressString(),
depositTx.getHash());
// send request
processModel.getP2PService().sendEncryptedDirectMessage(nodeAddress, pubKeyRing, request, new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived: trading peer={}; offerId={}; uid={}", request.getClass().getSimpleName(), nodeAddress, trade.getId());
}
@Override
public void onFault(String errorMessage) {
log.error("Sending {} failed: uid={}; peer={}; error={}", request.getClass().getSimpleName(), nodeAddress, trade.getId(), errorMessage);
appendToErrorMessage("Sending message failed: message=" + request + "\nerrorMessage=" + errorMessage);
failed();
}
});
}
private void completeAux() {
processModel.getXmrWalletService().getWallet().save();
complete();

View file

@ -33,7 +33,7 @@ public class SetupDepositTxsListener extends TradeTask {
protected void run() {
try {
runInterceptHook();
trade.setupDepositTxsListener();
trade.listenForDepositTxs();
complete();
} catch (Throwable t) {
failed(t);

View file

@ -57,7 +57,7 @@ public class UpdateMultisigWithTradingPeer extends TradeTask {
// fetch relevant trade info
XmrWalletService walletService = processModel.getProvider().getXmrWalletService();
MoneroWallet multisigWallet = walletService.getMultisigWallet(trade.getId());
MoneroWallet multisigWallet = walletService.getMultisigWallet(trade.getId()); // closed in BuyerCreateAndSignPayoutTx
// skip if multisig wallet does not need updated
if (!multisigWallet.isMultisigImportNeeded()) {
@ -74,7 +74,6 @@ public class UpdateMultisigWithTradingPeer extends TradeTask {
UpdateMultisigResponse response = (UpdateMultisigResponse) message;
multisigWallet.importMultisigHex(Arrays.asList(response.getUpdatedMultisigHex()));
multisigWallet.sync();
multisigWallet.save();
trade.removeListener(updateMultisigResponseListener);
complete();
}

View file

@ -18,7 +18,6 @@
package bisq.core.trade.protocol.tasks.buyer;
import bisq.core.btc.wallet.XmrWalletService;
import bisq.core.offer.Offer;
import bisq.core.trade.MakerTrade;
import bisq.core.trade.Trade;
import bisq.core.trade.protocol.tasks.TradeTask;
@ -42,10 +41,8 @@ import static com.google.common.base.Preconditions.checkNotNull;
import monero.common.MoneroError;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroAccount;
import monero.wallet.model.MoneroDestination;
import monero.wallet.model.MoneroSubaddress;
import monero.wallet.model.MoneroTxConfig;
import monero.wallet.model.MoneroTxQuery;
import monero.wallet.model.MoneroTxWallet;
@Slf4j
@ -65,7 +62,7 @@ public class BuyerCreateAndSignPayoutTx extends TradeTask {
Preconditions.checkNotNull(trade.getTradeAmount(), "trade.getTradeAmount() must not be null");
Preconditions.checkNotNull(trade.getMakerDepositTx(), "trade.getMakerDepositTx() must not be null");
Preconditions.checkNotNull(trade.getTakerDepositTx(), "trade.getTakerDepositTx() must not be null");
Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
checkNotNull(trade.getOffer(), "offer must not be null");
// gather relevant trade info
XmrWalletService walletService = processModel.getProvider().getXmrWalletService();
@ -84,8 +81,8 @@ public class BuyerCreateAndSignPayoutTx extends TradeTask {
if (multisigWallet.isMultisigImportNeeded()) throw new RuntimeException("Multisig import is still needed!!!");
MoneroTxWallet feeEstimateTx = multisigWallet.createTx(new MoneroTxConfig()
.setAccountIndex(0)
.addDestination(buyerPayoutAddress, buyerPayoutAmount.multiply(BigInteger.valueOf(4)).divide(BigInteger.valueOf(5))) // reduce payment amount to compute fee of similar tx
.addDestination(sellerPayoutAddress, sellerPayoutAmount.multiply(BigInteger.valueOf(4)).divide(BigInteger.valueOf(5)))
.addDestination(buyerPayoutAddress, buyerPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10))) // reduce payment amount to compute fee of similar tx
.addDestination(sellerPayoutAddress, sellerPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10)))
.setRelay(false)
);
@ -98,19 +95,18 @@ public class BuyerCreateAndSignPayoutTx extends TradeTask {
numAttempts++;
payoutTx = multisigWallet.createTx(new MoneroTxConfig()
.setAccountIndex(0)
.addDestination(new MoneroDestination(buyerPayoutAddress, buyerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2))))) // split fee subtracted from each payout amount
.addDestination(new MoneroDestination(sellerPayoutAddress, sellerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2))))) // TODO (woodser): support addDestination(addr, amt) without new
.addDestination(buyerPayoutAddress, buyerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2)))) // split fee subtracted from each payout amount
.addDestination(sellerPayoutAddress, sellerPayoutAmount.subtract(feeEstimate.divide(BigInteger.valueOf(2))))
.setRelay(false));
} catch (MoneroError e) {
//e.printStackTrace();
//System.out.println("FAILED TO CREATE PAYOUT TX, ITERATING...");
// exception expected
}
}
if (payoutTx == null) throw new RuntimeException("Failed to generate payout tx");
System.out.println("PAYOUT TX GENERATED ON ATTEMPT " + numAttempts);
System.out.println(payoutTx);
if (payoutTx == null) throw new RuntimeException("Failed to generate payout tx after " + numAttempts + " attempts");
log.info("Payout transaction generated on attempt {}: {}", numAttempts, payoutTx);
processModel.setBuyerSignedPayoutTx(payoutTx);
walletService.closeMultisigWallet(trade.getId());
complete();
} catch (Throwable t) {
failed(t);

View file

@ -63,6 +63,7 @@ public class BuyerProcessPayoutTxPublishedMessage extends TradeTask {
trade.setPayoutTx(multisigWallet.getTx(txHashes.get(0)));
XmrWalletService.printTxs("payoutTx received from peer", trade.getPayoutTx());
trade.setState(Trade.State.BUYER_RECEIVED_PAYOUT_TX_PUBLISHED_MSG);
walletService.closeMultisigWallet(trade.getId());
//processModel.getBtcWalletService().resetCoinLockedInMultiSigAddressEntry(trade.getId());
} else {
log.info("We got the payout tx already set from BuyerSetupPayoutTxListener and do nothing here. trade ID={}", trade.getId());

View file

@ -18,7 +18,6 @@
package bisq.core.trade.protocol.tasks.seller;
import bisq.core.btc.wallet.XmrWalletService;
import bisq.core.offer.Offer;
import bisq.core.trade.Contract;
import bisq.core.trade.MakerTrade;
import bisq.core.trade.Trade;
@ -31,10 +30,6 @@ import java.math.BigInteger;
import lombok.extern.slf4j.Slf4j;
import static com.google.common.base.Preconditions.checkNotNull;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroDestination;
import monero.wallet.model.MoneroMultisigSignResult;
@ -59,29 +54,17 @@ public class SellerSignAndPublishPayoutTx extends TradeTask {
MoneroWallet multisigWallet = walletService.getMultisigWallet(trade.getId());
String buyerSignedPayoutTxHex = trade.getTradingPeer().getSignedPayoutTxHex();
Contract contract = trade.getContract();
Offer offer = checkNotNull(trade.getOffer(), "offer must not be null");
BigInteger sellerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? processModel.getMaker().getDepositTxHash() : processModel.getTaker().getDepositTxHash()).getIncomingAmount(); // TODO (woodser): redundancy of processModel.getPreparedDepositTxId() vs trade.getDepositTxId() necessary or avoidable?
BigInteger buyerDepositAmount = multisigWallet.getTx(trade instanceof MakerTrade ? processModel.getTaker().getDepositTxHash() : processModel.getMaker().getDepositTxHash()).getIncomingAmount();
BigInteger tradeAmount = ParsingUtils.coinToAtomicUnits(trade.getTradeAmount());
System.out.println("SELLER VERIFYING PAYOUT TX");
System.out.println("Trade amount: " + trade.getTradeAmount());
System.out.println("Buyer deposit amount: " + buyerDepositAmount);
System.out.println("Seller deposit amount: " + sellerDepositAmount);
BigInteger buyerPayoutAmount = ParsingUtils.coinToAtomicUnits(offer.getBuyerSecurityDeposit().add(trade.getTradeAmount()));
System.out.println("Buyer payout amount (with multiplier): " + buyerPayoutAmount);
BigInteger sellerPayoutAmount = ParsingUtils.coinToAtomicUnits(offer.getSellerSecurityDeposit());
System.out.println("Seller payout amount (with multiplier): " + sellerPayoutAmount);
// parse buyer-signed payout tx
MoneroTxSet parsedTxSet = multisigWallet.describeTxSet(new MoneroTxSet().setMultisigTxHex(buyerSignedPayoutTxHex));
if (parsedTxSet.getTxs().get(0).getTxSet() != parsedTxSet) System.out.println("LINKS ARE WRONG STRAIGHT FROM PARSING!!!");
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad buyer-signed payout tx"); // TODO (woodser): nack
if (parsedTxSet.getTxs() == null || parsedTxSet.getTxs().size() != 1) throw new RuntimeException("Bad buyer-signed payout tx"); // TODO (woodser): test nack
MoneroTxWallet buyerSignedPayoutTx = parsedTxSet.getTxs().get(0);
System.out.println("Parsed buyer signed tx hex:\n" + buyerSignedPayoutTx);
// verify payout tx has exactly 2 destinations
log.info("Seller verifying buyer-signed payout tx");
if (buyerSignedPayoutTx.getOutgoingTransfer() == null || buyerSignedPayoutTx.getOutgoingTransfer().getDestinations() == null || buyerSignedPayoutTx.getOutgoingTransfer().getDestinations().size() != 2) throw new RuntimeException("Buyer-signed payout tx does not have exactly two destinations");
// get buyer and seller destinations (order not preserved)
@ -93,8 +76,8 @@ public class SellerSignAndPublishPayoutTx extends TradeTask {
if (!buyerPayoutDestination.getAddress().equals(contract.getBuyerPayoutAddressString())) throw new RuntimeException("Buyer payout address does not match contract");
if (!sellerPayoutDestination.getAddress().equals(contract.getSellerPayoutAddressString())) throw new RuntimeException("Seller payout address does not match contract");
// verify change address is multisig's primary address // TODO (woodser): ideally change amount is 0, seen with 0 conf payout tx
if (!buyerSignedPayoutTx.getChangeAmount().equals(new BigInteger("0")) && !buyerSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify change address is multisig's primary address
if (!buyerSignedPayoutTx.getChangeAmount().equals(BigInteger.ZERO) && !buyerSignedPayoutTx.getChangeAddress().equals(multisigWallet.getPrimaryAddress())) throw new RuntimeException("Change address is not multisig wallet's primary address");
// verify sum of outputs = destination amounts + change amount
if (!buyerSignedPayoutTx.getOutputSum().equals(buyerPayoutDestination.getAmount().add(sellerPayoutDestination.getAmount()).add(buyerSignedPayoutTx.getChangeAmount()))) throw new RuntimeException("Sum of outputs != destination amounts + change amount");
@ -117,69 +100,16 @@ public class SellerSignAndPublishPayoutTx extends TradeTask {
// submit fully signed payout tx to the network
multisigWallet.submitMultisigTxHex(signedMultisigTxHex);
// close multisig wallet
walletService.closeMultisigWallet(trade.getId());
// update state
parsedTxSet.setMultisigTxHex(signedMultisigTxHex);
if (parsedTxSet.getTxs().get(0).getTxSet() != parsedTxSet) System.out.println("LINKS ARE WRONG!!!");
trade.setPayoutTx(parsedTxSet.getTxs().get(0));
trade.setPayoutTxId(parsedTxSet.getTxs().get(0).getHash());
trade.setState(Trade.State.SELLER_PUBLISHED_PAYOUT_TX);
complete();
// checkNotNull(trade.getTradeAmount(), "trade.getTradeAmount() must not be null");
//
// Offer offer = trade.getOffer();
// TradingPeer tradingPeer = trade.getTradingPeer();
// BtcWalletService walletService = processModel.getBtcWalletService();
// String id = processModel.getOffer().getId();
//
// final byte[] buyerSignature = tradingPeer.getSignature();
//
// Coin buyerPayoutAmount = checkNotNull(offer.getBuyerSecurityDeposit()).add(trade.getTradeAmount());
// Coin sellerPayoutAmount = offer.getSellerSecurityDeposit();
//
// final String buyerPayoutAddressString = tradingPeer.getPayoutAddressString();
// String sellerPayoutAddressString = walletService.getOrCreateAddressEntry(id,
// AddressEntry.Context.TRADE_PAYOUT).getAddressString();
//
// final byte[] buyerMultiSigPubKey = tradingPeer.getMultiSigPubKey();
// byte[] sellerMultiSigPubKey = processModel.getMyMultiSigPubKey();
//
// Optional<AddressEntry> multiSigAddressEntryOptional = walletService.getAddressEntry(id,
// AddressEntry.Context.MULTI_SIG);
// if (!multiSigAddressEntryOptional.isPresent() || !Arrays.equals(sellerMultiSigPubKey,
// multiSigAddressEntryOptional.get().getPubKey())) {
// // In some error edge cases it can be that the address entry is not marked (or was unmarked).
// // We do not want to fail in that case and only report a warning.
// // One case where that helped to avoid a failed payout attempt was when the taker had a power failure
// // at the moment when the offer was taken. This caused first to not see step 1 in the trade process
// // (all greyed out) but after the deposit tx was confirmed the trade process was on step 2 and
// // everything looked ok. At the payout multiSigAddressEntryOptional was not present and payout
// // could not be done. By changing the previous behaviour from fail if multiSigAddressEntryOptional
// // is not present to only log a warning the payout worked.
// log.warn("sellerMultiSigPubKey from AddressEntry does not match the one from the trade data. " +
// "Trade id ={}, multiSigAddressEntryOptional={}", id, multiSigAddressEntryOptional);
// }
//
// DeterministicKey multiSigKeyPair = walletService.getMultiSigKeyPair(id, sellerMultiSigPubKey);
//
// Transaction transaction = processModel.getTradeWalletService().sellerSignsAndFinalizesPayoutTx(
// checkNotNull(trade.getDepositTx()),
// buyerSignature,
// buyerPayoutAmount,
// sellerPayoutAmount,
// buyerPayoutAddressString,
// sellerPayoutAddressString,
// multiSigKeyPair,
// buyerMultiSigPubKey,
// sellerMultiSigPubKey
// );
//
// trade.setPayoutTx(transaction);
//
// walletService.swapTradeEntryToAvailableEntry(id, AddressEntry.Context.MULTI_SIG);
//
// complete();
// update trade state
parsedTxSet.setMultisigTxHex(signedMultisigTxHex); // TODO (woodser): better place to store this?
trade.setPayoutTx(parsedTxSet.getTxs().get(0));
trade.setPayoutTxId(parsedTxSet.getTxs().get(0).getHash());
trade.setState(Trade.State.SELLER_PUBLISHED_PAYOUT_TX);
complete();
} catch (Throwable t) {
failed(t);
}

View file

@ -40,29 +40,28 @@ public class TakerReservesTradeFunds extends TradeTask {
protected void run() {
try {
runInterceptHook();
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(trade.getOffer().getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger takerFee = ParsingUtils.coinToAtomicUnits(trade.getTakerFee());
BigInteger depositAmount = ParsingUtils.centinerosToAtomicUnits(processModel.getFundsNeededForTradeAsLong());
MoneroTxWallet reserveTx = TradeUtils.createReserveTx(model.getXmrWalletService(), trade.getId(), takerFee, returnAddress, depositAmount);
// freeze trade funds
// TODO (woodser): synchronize to handle potential race condition where concurrent trades freeze each other's outputs
List<String> reserveTxKeyImages = new ArrayList<String>();
MoneroWallet wallet = model.getXmrWalletService().getWallet();
for (MoneroOutput input : reserveTx.getInputs()) {
reserveTxKeyImages.add(input.getKeyImage().getHex());
wallet.freezeOutput(input.getKeyImage().getHex());
// synchronize on wallet to reserve key images
synchronized (model.getXmrWalletService().getWallet()) {
// create transaction to reserve trade
String returnAddress = model.getXmrWalletService().getOrCreateAddressEntry(trade.getOffer().getId(), XmrAddressEntry.Context.TRADE_PAYOUT).getAddressString();
BigInteger takerFee = ParsingUtils.coinToAtomicUnits(trade.getTakerFee());
BigInteger depositAmount = ParsingUtils.centinerosToAtomicUnits(processModel.getFundsNeededForTradeAsLong());
MoneroTxWallet reserveTx = TradeUtils.reserveTradeFunds(model.getXmrWalletService(), trade.getId(), takerFee, returnAddress, depositAmount);
// collect reserved key images // TODO (woodser): switch to proof of reserve?
List<String> reservedKeyImages = new ArrayList<String>();
for (MoneroOutput input : reserveTx.getInputs()) reservedKeyImages.add(input.getKeyImage().getHex());
// save process state
// TODO (woodser): persist
processModel.setReserveTx(reserveTx);
processModel.getTaker().setReserveTxKeyImages(reservedKeyImages);
trade.setTakerFeeTxId(reserveTx.getHash()); // TODO (woodser): this should be multisig deposit tx id? how is it used?
//trade.setState(Trade.State.TAKER_PUBLISHED_TAKER_FEE_TX); // TODO (woodser): fee tx is not broadcast separate, update states
complete();
}
// save process state
// TODO (woodser): persist
processModel.setReserveTx(reserveTx);
processModel.getTaker().setReserveTxKeyImages(reserveTxKeyImages);
trade.setTakerFeeTxId(reserveTx.getHash()); // TODO (woodser): this should be multisig deposit tx id? how is it used?
//trade.setState(Trade.State.TAKER_PUBLISHED_TAKER_FEE_TX); // TODO (woodser): fee tx is not broadcast separate, update states
complete();
} catch (Throwable t) {
trade.setErrorMessage("An error occurred.\n" +
"Error message:\n"

View file

@ -42,12 +42,11 @@ public class TakerSendsInitTradeRequestToArbitrator extends TradeTask {
try {
runInterceptHook();
// send request to offer signer
// send request to arbitrator
sendInitTradeRequest(trade.getOffer().getOfferPayload().getArbitratorSigner(), new SendDirectMessageListener() {
@Override
public void onArrived() {
log.info("{} arrived at arbitrator: offerId={}", InitTradeRequest.class.getSimpleName(), trade.getId());
complete();
}
// send request to backup arbitrator if signer unavailable
@ -63,7 +62,6 @@ public class TakerSendsInitTradeRequestToArbitrator extends TradeTask {
@Override
public void onArrived() {
log.info("{} arrived at backup arbitrator: offerId={}", InitTradeRequest.class.getSimpleName(), trade.getId());
complete();
}
@Override
public void onFault(String errorMessage) { // TODO (woodser): distinguish nack from offline
@ -73,6 +71,7 @@ public class TakerSendsInitTradeRequestToArbitrator extends TradeTask {
});
}
});
complete(); // TODO (woodser): onArrived() doesn't get called if arbitrator rejects concurrent requests. always complete before onArrived()?
} catch (Throwable t) {
failed(t);
}

View file

@ -70,7 +70,7 @@ public class GrpcErrorMessageHandler implements ErrorMessageHandler {
}
@Override
public void handleErrorMessage(String errorMessage) {
public synchronized void handleErrorMessage(String errorMessage) {
// A task runner may call handleErrorMessage(String) more than once.
// Throw only one exception if that happens, to avoid looping until the
// grpc stream is closed

View file

@ -47,7 +47,7 @@ class GrpcExceptionHandler {
public GrpcExceptionHandler() {
}
public void handleException(Logger log,
public synchronized void handleException(Logger log,
Throwable t,
StreamObserver<?> responseObserver) {
// Log the core api error (this is last chance to do that), wrap it in a new
@ -58,7 +58,7 @@ class GrpcExceptionHandler {
throw grpcStatusRuntimeException;
}
public void handleExceptionAsWarning(Logger log,
public synchronized void handleExceptionAsWarning(Logger log,
String calledMethod,
Throwable t,
StreamObserver<?> responseObserver) {

View file

@ -8,7 +8,7 @@ import bisq.proto.grpc.NotificationsGrpc.NotificationsImplBase;
import bisq.proto.grpc.RegisterNotificationListenerRequest;
import bisq.proto.grpc.SendNotificationReply;
import bisq.proto.grpc.SendNotificationRequest;
import io.grpc.Context;
import io.grpc.ServerInterceptor;
import io.grpc.stub.StreamObserver;
@ -46,24 +46,30 @@ class GrpcNotificationsService extends NotificationsImplBase {
@Override
public void registerNotificationListener(RegisterNotificationListenerRequest request,
StreamObserver<NotificationMessage> responseObserver) {
try {
coreApi.addNotificationListener(new GrpcNotificationListener(responseObserver));
// No onNext / onCompleted, as the response observer should be kept open
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
Context ctx = Context.current().fork(); // context is independent for long-lived request
ctx.run(() -> {
try {
coreApi.addNotificationListener(new GrpcNotificationListener(responseObserver));
// No onNext / onCompleted, as the response observer should be kept open
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
});
}
@Override
public void sendNotification(SendNotificationRequest request,
StreamObserver<SendNotificationReply> responseObserver) {
try {
coreApi.sendNotification(request.getNotification());
responseObserver.onNext(SendNotificationReply.newBuilder().build());
responseObserver.onCompleted();
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
Context ctx = Context.current().fork(); // context is independent from notification delivery
ctx.run(() -> {
try {
coreApi.sendNotification(request.getNotification());
responseObserver.onNext(SendNotificationReply.newBuilder().build());
responseObserver.onCompleted();
} catch (Throwable t) {
exceptionHandler.handleException(log, t, responseObserver);
}
});
}
@Value

View file

@ -141,6 +141,11 @@ class GrpcOffersService extends OffersImplBase {
@Override
public void createOffer(CreateOfferRequest req,
StreamObserver<CreateOfferReply> responseObserver) {
GrpcErrorMessageHandler errorMessageHandler =
new GrpcErrorMessageHandler(getCreateOfferMethod().getFullMethodName(),
responseObserver,
exceptionHandler,
log);
try {
coreApi.createAnPlaceOffer(
req.getCurrencyCode(),
@ -162,6 +167,10 @@ class GrpcOffersService extends OffersImplBase {
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
},
errorMessage -> {
if (!errorMessageHandler.isErrorHandled())
errorMessageHandler.handleErrorMessage(errorMessage);
});
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);

View file

@ -65,7 +65,6 @@ public class GrpcServer {
GrpcMoneroConnectionsService moneroConnectionsService,
GrpcMoneroNodeService moneroNodeService) {
this.server = ServerBuilder.forPort(config.apiPort)
.executor(UserThread.getExecutor())
.addService(interceptForward(accountService, accountService.interceptors()))
.addService(interceptForward(disputeAgentsService, disputeAgentsService.interceptors()))
.addService(interceptForward(disputesService, disputesService.interceptors()))

View file

@ -19,7 +19,6 @@ package bisq.daemon.grpc;
import bisq.core.api.CoreApi;
import bisq.core.api.model.TradeInfo;
import bisq.core.support.messages.ChatMessage;
import bisq.core.trade.Trade;
import bisq.proto.grpc.ConfirmPaymentReceivedReply;
@ -40,7 +39,6 @@ import bisq.proto.grpc.TakeOfferReply;
import bisq.proto.grpc.TakeOfferRequest;
import bisq.proto.grpc.WithdrawFundsReply;
import bisq.proto.grpc.WithdrawFundsRequest;
import io.grpc.ServerInterceptor;
import io.grpc.stub.StreamObserver;
@ -122,20 +120,24 @@ class GrpcTradesService extends TradesImplBase {
responseObserver,
exceptionHandler,
log);
coreApi.takeOffer(req.getOfferId(),
req.getPaymentAccountId(),
trade -> {
TradeInfo tradeInfo = toTradeInfo(trade);
var reply = TakeOfferReply.newBuilder()
.setTrade(tradeInfo.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
},
errorMessage -> {
if (!errorMessageHandler.isErrorHandled())
errorMessageHandler.handleErrorMessage(errorMessage);
});
try {
coreApi.takeOffer(req.getOfferId(),
req.getPaymentAccountId(),
trade -> {
TradeInfo tradeInfo = toTradeInfo(trade);
var reply = TakeOfferReply.newBuilder()
.setTrade(tradeInfo.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
},
errorMessage -> {
if (!errorMessageHandler.isErrorHandled())
errorMessageHandler.handleErrorMessage(errorMessage);
});
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);
}
}
@Override

View file

@ -17,6 +17,7 @@
package bisq.daemon.grpc;
import bisq.common.UserThread;
import bisq.core.api.CoreApi;
import bisq.core.api.model.AddressBalanceInfo;
import bisq.core.api.model.TxFeeRateInfo;
@ -102,16 +103,18 @@ class GrpcWalletsService extends WalletsImplBase {
@Override
public void getBalances(GetBalancesRequest req, StreamObserver<GetBalancesReply> responseObserver) {
try {
var balances = coreApi.getBalances(req.getCurrencyCode());
var reply = GetBalancesReply.newBuilder()
.setBalances(balances.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);
}
UserThread.execute(() -> { // TODO (woodser): Balances.updateBalances() runs on UserThread for JFX components, so call from user thread, else the properties may not be updated. remove JFX properties or push delay into CoreWalletsService.getXmrBalances()?
try {
var balances = coreApi.getBalances(req.getCurrencyCode());
var reply = GetBalancesReply.newBuilder()
.setBalances(balances.toProtoMessage())
.build();
responseObserver.onNext(reply);
responseObserver.onCompleted();
} catch (Throwable cause) {
exceptionHandler.handleException(log, cause, responseObserver);
}
});
}
@Override

View file

@ -40,31 +40,37 @@ public class GrpcCallRateMeter {
}
public boolean checkAndIncrement() {
if (getCallsCount() < allowedCallsPerTimeWindow) {
incrementCallsCount();
return true;
} else {
return false;
synchronized (callTimestamps) {
if (getCallsCount() < allowedCallsPerTimeWindow) {
incrementCallsCount();
return true;
} else {
return false;
}
}
}
public int getCallsCount() {
removeStaleCallTimestamps();
return callTimestamps.size();
synchronized (callTimestamps) {
removeStaleCallTimestamps();
return callTimestamps.size();
}
}
public String getCallsCountProgress(String calledMethodName) {
String shortTimeUnitName = StringUtils.chop(timeUnit.name().toLowerCase());
// Just print 'GetVersion has been called N times...',
// not 'io.bisq.protobuffer.GetVersion/GetVersion has been called N times...'
String loggedMethodName = calledMethodName.split("/")[1];
return format("%s has been called %d time%s in the last %s, rate limit is %d/%s",
loggedMethodName,
callTimestamps.size(),
callTimestamps.size() == 1 ? "" : "s",
shortTimeUnitName,
allowedCallsPerTimeWindow,
shortTimeUnitName);
synchronized (callTimestamps) {
String shortTimeUnitName = StringUtils.chop(timeUnit.name().toLowerCase());
// Just print 'GetVersion has been called N times...',
// not 'io.bisq.protobuffer.GetVersion/GetVersion has been called N times...'
String loggedMethodName = calledMethodName.split("/")[1];
return format("%s has been called %d time%s in the last %s, rate limit is %d/%s",
loggedMethodName,
callTimestamps.size(),
callTimestamps.size() == 1 ? "" : "s",
shortTimeUnitName,
allowedCallsPerTimeWindow,
shortTimeUnitName);
}
}
private void incrementCallsCount() {
@ -85,11 +91,13 @@ public class GrpcCallRateMeter {
@Override
public String toString() {
return "GrpcCallRateMeter{" +
"allowedCallsPerTimeWindow=" + allowedCallsPerTimeWindow +
", timeUnit=" + timeUnit.name() +
", timeUnitIntervalInMilliseconds=" + timeUnitIntervalInMilliseconds +
", callsCount=" + callTimestamps.size() +
'}';
synchronized (callTimestamps) {
return "GrpcCallRateMeter{" +
"allowedCallsPerTimeWindow=" + allowedCallsPerTimeWindow +
", timeUnit=" + timeUnit.name() +
", timeUnitIntervalInMilliseconds=" + timeUnitIntervalInMilliseconds +
", callsCount=" + callTimestamps.size() +
'}';
}
}
}

View file

@ -736,8 +736,10 @@ public class MainView extends InitializableView<StackPane, MainViewModel> {
});
model.getUpdatedDataReceived().addListener((observable, oldValue, newValue) -> {
p2PNetworkIcon.setOpacity(1);
p2pNetworkProgressBar.setProgress(0);
UserThread.execute(() -> {
p2PNetworkIcon.setOpacity(1);
p2pNetworkProgressBar.setProgress(0);
});
});
p2pNetworkProgressBar = new JFXProgressBar(-1);

View file

@ -240,7 +240,7 @@ public class LockedView extends ActivatableView<VBox, Void> {
private Optional<Tradable> getTradable(LockedListItem item) {
String offerId = item.getAddressEntry().getOfferId();
Optional<Trade> tradeOptional = tradeManager.getTradeById(offerId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(offerId);
if (tradeOptional.isPresent()) {
return Optional.of(tradeOptional.get());
} else if (openOfferManager.getOpenOfferById(offerId).isPresent()) {

View file

@ -239,7 +239,7 @@ public class ReservedView extends ActivatableView<VBox, Void> {
private Optional<Tradable> getTradable(ReservedListItem item) {
String offerId = item.getAddressEntry().getOfferId();
Optional<Trade> tradeOptional = tradeManager.getTradeById(offerId);
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(offerId);
if (tradeOptional.isPresent()) {
return Optional.of(tradeOptional.get());
} else if (openOfferManager.getOpenOfferById(offerId).isPresent()) {

View file

@ -32,9 +32,7 @@ import javafx.collections.ObservableList;
import java.util.Optional;
import lombok.extern.slf4j.Slf4j;
import monero.daemon.model.MoneroTx;
import monero.wallet.model.MoneroTxWallet;
@ -82,14 +80,14 @@ class TransactionAwareTrade implements TransactionAwareTradable {
private boolean isMakerDepositTx(String txId) {
return Optional.ofNullable(trade.getMakerDepositTx())
.map(MoneroTxWallet::getHash)
.map(MoneroTx::getHash)
.map(hash -> hash.equals(txId))
.orElse(false);
}
private boolean isTakerDepositTx(String txId) {
return Optional.ofNullable(trade.getTakerDepositTx())
.map(MoneroTxWallet::getHash)
.map(MoneroTx::getHash)
.map(hash -> hash.equals(txId))
.orElse(false);
}

View file

@ -382,17 +382,19 @@ public class OfferBookChartView extends ActivatableViewAndModel<VBox, OfferBookC
}
private void updateChartData() {
seriesBuy.getData().clear();
seriesSell.getData().clear();
areaChart.getData().clear();
UserThread.execute(() -> {
seriesBuy.getData().clear();
seriesSell.getData().clear();
areaChart.getData().clear();
boolean isCrypto = CurrencyUtil.isCryptoCurrency(model.getCurrencyCode());
boolean isCrypto = CurrencyUtil.isCryptoCurrency(model.getCurrencyCode());
// crypto: left-sell, right-buy. fiat: left-buy, right-sell
seriesBuy.getData().addAll(filterOutliersBuy(model.getBuyData(), isCrypto));
seriesSell.getData().addAll(filterOutliersSell(model.getSellData(), isCrypto));
// crypto: left-sell, right-buy. fiat: left-buy, right-sell
seriesBuy.getData().addAll(filterOutliersBuy(model.getBuyData(), isCrypto));
seriesSell.getData().addAll(filterOutliersSell(model.getSellData(), isCrypto));
areaChart.getData().addAll(List.of(seriesBuy, seriesSell));
areaChart.getData().addAll(List.of(seriesBuy, seriesSell));
});
}
List<XYChart.Data<Number, Number>> filterOutliersBuy(List<XYChart.Data<Number, Number>> buy, boolean isCrypto) {

View file

@ -62,7 +62,7 @@ import bisq.core.util.FormattingUtils;
import bisq.core.util.coin.CoinFormatter;
import bisq.network.p2p.NodeAddress;
import bisq.common.UserThread;
import bisq.common.app.DevEnv;
import bisq.common.config.Config;
import bisq.common.util.Tuple3;
@ -305,7 +305,7 @@ public class OfferBookView extends ActivatableViewAndModel<GridPane, OfferBookVi
GridPane.setMargin(nrOfOffersLabel, new Insets(10, 0, 0, 0));
root.getChildren().add(nrOfOffersLabel);
offerListListener = c -> nrOfOffersLabel.setText(Res.get("offerbook.nrOffers", model.getOfferList().size()));
offerListListener = c -> UserThread.execute(() -> nrOfOffersLabel.setText(Res.get("offerbook.nrOffers", model.getOfferList().size())));
// Fixes incorrect ordering of Available offers:
// https://github.com/bisq-network/bisq-desktop/issues/588

View file

@ -51,7 +51,7 @@ import bisq.network.p2p.P2PService;
import bisq.network.p2p.network.CloseConnectionReason;
import bisq.network.p2p.network.Connection;
import bisq.network.p2p.network.ConnectionListener;
import bisq.common.UserThread;
import bisq.common.app.DevEnv;
import org.bitcoinj.core.Coin;
@ -524,23 +524,25 @@ class TakeOfferViewModel extends ActivatableWithDataModel<TakeOfferDataModel> im
}
private void updateSpinnerInfo() {
if (!showPayFundsScreenDisplayed.get() ||
offerWarning.get() != null ||
errorMessage.get() != null ||
showTransactionPublishedScreen.get()) {
spinnerInfoText.set("");
} else if (dataModel.getIsBtcWalletFunded().get()) {
spinnerInfoText.set("");
/* if (dataModel.isFeeFromFundingTxSufficient.get()) {
UserThread.execute(() -> {
if (!showPayFundsScreenDisplayed.get() ||
offerWarning.get() != null ||
errorMessage.get() != null ||
showTransactionPublishedScreen.get()) {
spinnerInfoText.set("");
} else if (dataModel.getIsBtcWalletFunded().get()) {
spinnerInfoText.set("");
/* if (dataModel.isFeeFromFundingTxSufficient.get()) {
spinnerInfoText.set("");
} else {
spinnerInfoText.set("Check if funding tx miner fee is sufficient...");
}*/
} else {
spinnerInfoText.set("Check if funding tx miner fee is sufficient...");
}*/
} else {
spinnerInfoText.set(Res.get("shared.waitingForFunds"));
}
spinnerInfoText.set(Res.get("shared.waitingForFunds"));
}
isWaitingForFunds.set(!spinnerInfoText.get().isEmpty());
isWaitingForFunds.set(!spinnerInfoText.get().isEmpty());
});
}
private void addListeners() {

View file

@ -515,47 +515,49 @@ public abstract class Overlay<T extends Overlay<T>> {
if (owner != null) {
Scene rootScene = owner.getScene();
if (rootScene != null) {
Scene scene = new Scene(getRootContainer());
scene.getStylesheets().setAll(rootScene.getStylesheets());
scene.setFill(Color.TRANSPARENT);
UserThread.execute(() -> {
Scene scene = new Scene(getRootContainer());
scene.getStylesheets().setAll(rootScene.getStylesheets());
scene.setFill(Color.TRANSPARENT);
setupKeyHandler(scene);
setupKeyHandler(scene);
stage = new Stage();
stage.setScene(scene);
Window window = rootScene.getWindow();
setModality();
stage.initStyle(StageStyle.TRANSPARENT);
stage.setOnCloseRequest(event -> {
event.consume();
doClose();
stage = new Stage();
stage.setScene(scene);
Window window = rootScene.getWindow();
setModality();
stage.initStyle(StageStyle.TRANSPARENT);
stage.setOnCloseRequest(event -> {
event.consume();
doClose();
});
stage.sizeToScene();
stage.show();
layout();
addEffectToBackground();
// On Linux the owner stage does not move the child stage as it does on Mac
// So we need to apply centerPopup. Further with fast movements the handler loses
// the latest position, with a delay it fixes that.
// Also on Mac sometimes the popups are positioned outside of the main app, so keep it for all OS
positionListener = (observable, oldValue, newValue) -> {
if (stage != null) {
layout();
if (centerTime != null)
centerTime.stop();
centerTime = UserThread.runAfter(this::layout, 3);
}
};
window.xProperty().addListener(positionListener);
window.yProperty().addListener(positionListener);
window.widthProperty().addListener(positionListener);
animateDisplay();
isDisplayed = true;
});
stage.sizeToScene();
stage.show();
layout();
addEffectToBackground();
// On Linux the owner stage does not move the child stage as it does on Mac
// So we need to apply centerPopup. Further with fast movements the handler loses
// the latest position, with a delay it fixes that.
// Also on Mac sometimes the popups are positioned outside of the main app, so keep it for all OS
positionListener = (observable, oldValue, newValue) -> {
if (stage != null) {
layout();
if (centerTime != null)
centerTime.stop();
centerTime = UserThread.runAfter(this::layout, 3);
}
};
window.xProperty().addListener(positionListener);
window.yProperty().addListener(positionListener);
window.widthProperty().addListener(positionListener);
animateDisplay();
isDisplayed = true;
}
}
}

View file

@ -64,7 +64,9 @@ public class Notification extends Overlay<Notification> {
if (autoClose && autoCloseTimer == null)
autoCloseTimer = UserThread.runAfter(this::doClose, 6);
stage.addEventHandler(MouseEvent.MOUSE_PRESSED, (event) -> doClose());
UserThread.execute(() -> {
stage.addEventHandler(MouseEvent.MOUSE_PRESSED, (event) -> doClose());
});
}
@Override

View file

@ -54,7 +54,7 @@ import bisq.core.trade.protocol.SellerProtocol;
import bisq.core.user.Preferences;
import bisq.network.p2p.P2PService;
import bisq.common.UserThread;
import bisq.common.crypto.PubKeyRing;
import bisq.common.crypto.PubKeyRingProvider;
import bisq.common.handlers.ErrorMessageHandler;
@ -87,8 +87,7 @@ import javax.annotation.Nullable;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import monero.daemon.model.MoneroTx;
import monero.wallet.MoneroWallet;
import monero.wallet.model.MoneroTxWallet;
@ -360,54 +359,56 @@ public class PendingTradesDataModel extends ActivatableDataModel {
}
private void doSelectItem(@Nullable PendingTradesListItem item) {
if (selectedTrade != null)
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
UserThread.execute(() -> {
if (selectedTrade != null)
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
if (item != null) {
selectedTrade = item.getTrade();
if (selectedTrade == null) {
log.error("selectedTrade is null");
return;
}
MoneroTxWallet makerDepositTx = selectedTrade.getMakerDepositTx();
MoneroTxWallet takerDepositTx = selectedTrade.getTakerDepositTx();
String tradeId = selectedTrade.getId();
tradeStateChangeListener = (observable, oldValue, newValue) -> {
if (makerDepositTx != null && takerDepositTx != null) { // TODO (woodser): this treats separate deposit ids as one unit, being both available or unavailable
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
notificationCenter.setSelectedTradeId(tradeId);
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
} else {
makerTxId.set("");
takerTxId.set("");
if (item != null) {
selectedTrade = item.getTrade();
if (selectedTrade == null) {
log.error("selectedTrade is null");
return;
}
};
selectedTrade.stateProperty().addListener(tradeStateChangeListener);
Offer offer = selectedTrade.getOffer();
if (offer == null) {
log.error("offer is null");
return;
}
MoneroTx makerDepositTx = selectedTrade.getMakerDepositTx();
MoneroTx takerDepositTx = selectedTrade.getTakerDepositTx();
String tradeId = selectedTrade.getId();
tradeStateChangeListener = (observable, oldValue, newValue) -> {
if (makerDepositTx != null && takerDepositTx != null) { // TODO (woodser): this treats separate deposit ids as one unit, being both available or unavailable
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
notificationCenter.setSelectedTradeId(tradeId);
selectedTrade.stateProperty().removeListener(tradeStateChangeListener);
} else {
makerTxId.set("");
takerTxId.set("");
}
};
selectedTrade.stateProperty().addListener(tradeStateChangeListener);
isMaker = tradeManager.isMyOffer(offer);
if (makerDepositTx != null && takerDepositTx != null) {
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
Offer offer = selectedTrade.getOffer();
if (offer == null) {
log.error("offer is null");
return;
}
isMaker = tradeManager.isMyOffer(offer);
if (makerDepositTx != null && takerDepositTx != null) {
makerTxId.set(makerDepositTx.getHash());
takerTxId.set(takerDepositTx.getHash());
} else {
makerTxId.set("");
takerTxId.set("");
}
notificationCenter.setSelectedTradeId(tradeId);
} else {
selectedTrade = null;
makerTxId.set("");
takerTxId.set("");
notificationCenter.setSelectedTradeId(null);
}
notificationCenter.setSelectedTradeId(tradeId);
} else {
selectedTrade = null;
makerTxId.set("");
takerTxId.set("");
notificationCenter.setSelectedTradeId(null);
}
selectedItemProperty.set(item);
selectedItemProperty.set(item);
});
}
private void tryOpenDispute(boolean isSupportTicket) {
@ -458,8 +459,9 @@ public class PendingTradesDataModel extends ActivatableDataModel {
byte[] payoutTxSerialized = null;
String payoutTxHashAsString = null;
MoneroTxWallet payoutTx = trade.getPayoutTx();
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
MoneroWallet multisigWallet = xmrWalletService.getMultisigWallet(trade.getId());
String updatedMultisigHex = multisigWallet.getMultisigHex();
xmrWalletService.closeMultisigWallet(trade.getId()); // close multisig wallet
if (payoutTx != null) {
// payoutTxSerialized = payoutTx.bitcoinSerialize(); // TODO (woodser): no need to pass serialized txs for xmr
// payoutTxHashAsString = payoutTx.getHashAsString();

View file

@ -363,7 +363,7 @@ public class PendingTradesView extends ActivatableViewAndModel<VBox, PendingTrad
}
private void updateMoveTradeToFailedColumnState() {
moveTradeToFailedColumn.setVisible(model.dataModel.list.stream().anyMatch(item -> isMaybeInvalidTrade(item.getTrade())));
UserThread.execute(() -> moveTradeToFailedColumn.setVisible(model.dataModel.list.stream().anyMatch(item -> isMaybeInvalidTrade(item.getTrade()))));
}
private boolean isMaybeInvalidTrade(Trade trade) {

View file

@ -137,7 +137,8 @@ public class BuyerStep2View extends TradeStepView {
showPopup();
} else if (state.ordinal() <= Trade.State.BUYER_SEND_FAILED_FIAT_PAYMENT_INITIATED_MSG.ordinal()) {
if (!trade.hasFailed()) {
switch (state) {
UserThread.execute(() -> {
switch (state) {
case BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED:
case BUYER_SENT_FIAT_PAYMENT_INITIATED_MSG:
busyAnimation.play();
@ -169,7 +170,8 @@ public class BuyerStep2View extends TradeStepView {
busyAnimation.stop();
statusLabel.setText(Res.get("shared.sendingConfirmationAgain"));
break;
}
}
});
} else {
log.warn("Trade contains error message {}", trade.getErrorMessage());
statusLabel.setText("");

View file

@ -471,43 +471,45 @@ public class ChatView extends AnchorPane {
}
private void updateMsgState(ChatMessage message) {
boolean visible;
AwesomeIcon icon = null;
String text = null;
statusIcon.getStyleClass().add("status-icon");
statusInfoLabel.getStyleClass().add("status-icon");
statusHBox.setOpacity(1);
log.debug("updateMsgState msg-{}, ack={}, arrived={}", message.getMessage(),
message.acknowledgedProperty().get(), message.arrivedProperty().get());
if (message.acknowledgedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK_SIGN;
text = Res.get("support.acknowledged");
} else if (message.ackErrorProperty().get() != null) {
visible = true;
icon = AwesomeIcon.EXCLAMATION_SIGN;
text = Res.get("support.error", message.ackErrorProperty().get());
statusIcon.getStyleClass().add("error-text");
statusInfoLabel.getStyleClass().add("error-text");
} else if (message.arrivedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK;
text = Res.get("support.arrived");
} else if (message.storedInMailboxProperty().get()) {
visible = true;
icon = AwesomeIcon.ENVELOPE;
text = Res.get("support.savedInMailbox");
} else {
visible = false;
log.debug("updateMsgState called but no msg state available. message={}", message);
}
UserThread.execute(() -> {
boolean visible;
AwesomeIcon icon = null;
String text = null;
statusIcon.getStyleClass().add("status-icon");
statusInfoLabel.getStyleClass().add("status-icon");
statusHBox.setOpacity(1);
log.debug("updateMsgState msg-{}, ack={}, arrived={}", message.getMessage(),
message.acknowledgedProperty().get(), message.arrivedProperty().get());
if (message.acknowledgedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK_SIGN;
text = Res.get("support.acknowledged");
} else if (message.ackErrorProperty().get() != null) {
visible = true;
icon = AwesomeIcon.EXCLAMATION_SIGN;
text = Res.get("support.error", message.ackErrorProperty().get());
statusIcon.getStyleClass().add("error-text");
statusInfoLabel.getStyleClass().add("error-text");
} else if (message.arrivedProperty().get()) {
visible = true;
icon = AwesomeIcon.OK;
text = Res.get("support.arrived");
} else if (message.storedInMailboxProperty().get()) {
visible = true;
icon = AwesomeIcon.ENVELOPE;
text = Res.get("support.savedInMailbox");
} else {
visible = false;
log.debug("updateMsgState called but no msg state available. message={}", message);
}
statusHBox.setVisible(visible);
if (visible) {
AwesomeDude.setIcon(statusIcon, icon, "14");
statusIcon.setTooltip(new Tooltip(text));
statusInfoLabel.setText(text);
}
statusHBox.setVisible(visible);
if (visible) {
AwesomeDude.setIcon(statusIcon, icon, "14");
statusIcon.setTooltip(new Tooltip(text));
statusInfoLabel.setText(text);
}
});
}
};
}

View file

@ -85,76 +85,78 @@ public class DisputeChatPopup {
}
public void openChat(Dispute selectedDispute, DisputeSession concreteDisputeSession, String counterpartyName) {
closeChat();
this.selectedDispute = selectedDispute;
selectedDispute.getChatMessages().forEach(m -> m.setWasDisplayed(true));
disputeManager.requestPersistence();
ChatView chatView = new ChatView(disputeManager, formatter, counterpartyName);
chatView.setAllowAttachments(true);
chatView.setDisplayHeader(false);
chatView.initialize();
AnchorPane pane = new AnchorPane(chatView);
pane.setPrefSize(760, 500);
AnchorPane.setLeftAnchor(chatView, 10d);
AnchorPane.setRightAnchor(chatView, 10d);
AnchorPane.setTopAnchor(chatView, -20d);
AnchorPane.setBottomAnchor(chatView, 10d);
pane.getStyleClass().add("dispute-chat-border");
Button closeDisputeButton = null;
if (!selectedDispute.isClosed() && !disputeManager.isTrader(selectedDispute)) {
closeDisputeButton = new AutoTooltipButton(Res.get("support.closeTicket"));
closeDisputeButton.setOnAction(e -> chatCallback.onCloseDisputeFromChatWindow(selectedDispute));
}
chatView.display(concreteDisputeSession, closeDisputeButton, pane.widthProperty());
chatView.activate();
chatView.scrollToBottom();
chatPopupStage = new Stage();
chatPopupStage.setTitle(Res.get("disputeChat.chatWindowTitle", selectedDispute.getShortTradeId())
+ " " + selectedDispute.getRoleString());
StackPane owner = MainView.getRootContainer();
Scene rootScene = owner.getScene();
chatPopupStage.initOwner(rootScene.getWindow());
chatPopupStage.initModality(Modality.NONE);
chatPopupStage.initStyle(StageStyle.DECORATED);
chatPopupStage.setOnHiding(event -> {
chatView.deactivate();
// at close we set all as displayed. While open we ignore updates of the numNewMsg in the list icon.
UserThread.execute(() -> {
closeChat();
this.selectedDispute = selectedDispute;
selectedDispute.getChatMessages().forEach(m -> m.setWasDisplayed(true));
disputeManager.requestPersistence();
chatPopupStage = null;
});
Scene scene = new Scene(pane);
CssTheme.loadSceneStyles(scene, preferences.getCssTheme(), false);
scene.addEventHandler(KeyEvent.KEY_RELEASED, ev -> {
if (ev.getCode() == KeyCode.ESCAPE) {
ev.consume();
chatPopupStage.hide();
ChatView chatView = new ChatView(disputeManager, formatter, counterpartyName);
chatView.setAllowAttachments(true);
chatView.setDisplayHeader(false);
chatView.initialize();
AnchorPane pane = new AnchorPane(chatView);
pane.setPrefSize(760, 500);
AnchorPane.setLeftAnchor(chatView, 10d);
AnchorPane.setRightAnchor(chatView, 10d);
AnchorPane.setTopAnchor(chatView, -20d);
AnchorPane.setBottomAnchor(chatView, 10d);
pane.getStyleClass().add("dispute-chat-border");
Button closeDisputeButton = null;
if (!selectedDispute.isClosed() && !disputeManager.isTrader(selectedDispute)) {
closeDisputeButton = new AutoTooltipButton(Res.get("support.closeTicket"));
closeDisputeButton.setOnAction(e -> chatCallback.onCloseDisputeFromChatWindow(selectedDispute));
}
chatView.display(concreteDisputeSession, closeDisputeButton, pane.widthProperty());
chatView.activate();
chatView.scrollToBottom();
chatPopupStage = new Stage();
chatPopupStage.setTitle(Res.get("disputeChat.chatWindowTitle", selectedDispute.getShortTradeId())
+ " " + selectedDispute.getRoleString());
StackPane owner = MainView.getRootContainer();
Scene rootScene = owner.getScene();
chatPopupStage.initOwner(rootScene.getWindow());
chatPopupStage.initModality(Modality.NONE);
chatPopupStage.initStyle(StageStyle.DECORATED);
chatPopupStage.setOnHiding(event -> {
chatView.deactivate();
// at close we set all as displayed. While open we ignore updates of the numNewMsg in the list icon.
selectedDispute.getChatMessages().forEach(m -> m.setWasDisplayed(true));
disputeManager.requestPersistence();
chatPopupStage = null;
});
Scene scene = new Scene(pane);
CssTheme.loadSceneStyles(scene, preferences.getCssTheme(), false);
scene.addEventHandler(KeyEvent.KEY_RELEASED, ev -> {
if (ev.getCode() == KeyCode.ESCAPE) {
ev.consume();
chatPopupStage.hide();
}
});
chatPopupStage.setScene(scene);
chatPopupStage.setOpacity(0);
chatPopupStage.show();
xPositionListener = (observable, oldValue, newValue) -> chatPopupStageXPosition = (double) newValue;
chatPopupStage.xProperty().addListener(xPositionListener);
yPositionListener = (observable, oldValue, newValue) -> chatPopupStageYPosition = (double) newValue;
chatPopupStage.yProperty().addListener(yPositionListener);
if (chatPopupStageXPosition == -1) {
Window rootSceneWindow = rootScene.getWindow();
double titleBarHeight = rootSceneWindow.getHeight() - rootScene.getHeight();
chatPopupStage.setX(Math.round(rootSceneWindow.getX() + (owner.getWidth() - chatPopupStage.getWidth() / 4 * 3)));
chatPopupStage.setY(Math.round(rootSceneWindow.getY() + titleBarHeight + (owner.getHeight() - chatPopupStage.getHeight() / 4 * 3)));
} else {
chatPopupStage.setX(chatPopupStageXPosition);
chatPopupStage.setY(chatPopupStageYPosition);
}
// Delay display to next render frame to avoid that the popup is first quickly displayed in default position
// and after a short moment in the correct position
UserThread.execute(() -> chatPopupStage.setOpacity(1));
});
chatPopupStage.setScene(scene);
chatPopupStage.setOpacity(0);
chatPopupStage.show();
xPositionListener = (observable, oldValue, newValue) -> chatPopupStageXPosition = (double) newValue;
chatPopupStage.xProperty().addListener(xPositionListener);
yPositionListener = (observable, oldValue, newValue) -> chatPopupStageYPosition = (double) newValue;
chatPopupStage.yProperty().addListener(yPositionListener);
if (chatPopupStageXPosition == -1) {
Window rootSceneWindow = rootScene.getWindow();
double titleBarHeight = rootSceneWindow.getHeight() - rootScene.getHeight();
chatPopupStage.setX(Math.round(rootSceneWindow.getX() + (owner.getWidth() - chatPopupStage.getWidth() / 4 * 3)));
chatPopupStage.setY(Math.round(rootSceneWindow.getY() + titleBarHeight + (owner.getHeight() - chatPopupStage.getHeight() / 4 * 3)));
} else {
chatPopupStage.setX(chatPopupStageXPosition);
chatPopupStage.setY(chatPopupStageYPosition);
}
// Delay display to next render frame to avoid that the popup is first quickly displayed in default position
// and after a short moment in the correct position
UserThread.execute(() -> chatPopupStage.setOpacity(1));
}
}

View file

@ -1131,7 +1131,7 @@ public abstract class DisputeView extends ActivatableView<VBox, Void> {
super.updateItem(item, empty);
if (item != null && !empty) {
Optional<Trade> tradeOptional = tradeManager.getTradeById(item.getTradeId());
Optional<Trade> tradeOptional = tradeManager.getOpenTrade(item.getTradeId());
if (tradeOptional.isPresent()) {
field = new HyperlinkWithIcon(item.getShortTradeId());
field.setMouseTransparent(false);
@ -1349,31 +1349,33 @@ public abstract class DisputeView extends ActivatableView<VBox, Void> {
@Override
public void updateItem(final Dispute item, boolean empty) {
super.updateItem(item, empty);
if (item != null && !empty) {
if (closedProperty != null) {
closedProperty.removeListener(listener);
}
UserThread.execute(() -> {
if (item != null && !empty) {
if (closedProperty != null) {
closedProperty.removeListener(listener);
}
listener = (observable, oldValue, newValue) -> {
setText(newValue ? Res.get("support.closed") : Res.get("support.open"));
listener = (observable, oldValue, newValue) -> {
setText(newValue ? Res.get("support.closed") : Res.get("support.open"));
if (getTableRow() != null)
getTableRow().setOpacity(newValue && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
if (item.isClosed() && item == chatPopup.getSelectedDispute())
chatPopup.closeChat(); // close the chat popup when the associated ticket is closed
};
closedProperty = item.isClosedProperty();
closedProperty.addListener(listener);
boolean isClosed = item.isClosed();
setText(isClosed ? Res.get("support.closed") : Res.get("support.open"));
if (getTableRow() != null)
getTableRow().setOpacity(newValue && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
if (item.isClosed() && item == chatPopup.getSelectedDispute())
chatPopup.closeChat(); // close the chat popup when the associated ticket is closed
};
closedProperty = item.isClosedProperty();
closedProperty.addListener(listener);
boolean isClosed = item.isClosed();
setText(isClosed ? Res.get("support.closed") : Res.get("support.open"));
if (getTableRow() != null)
getTableRow().setOpacity(isClosed && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
} else {
if (closedProperty != null) {
closedProperty.removeListener(listener);
closedProperty = null;
getTableRow().setOpacity(isClosed && item.getBadgeCountProperty().get() == 0 ? 0.4 : 1);
} else {
if (closedProperty != null) {
closedProperty.removeListener(listener);
closedProperty = null;
}
setText("");
}
setText("");
}
});
}
};
}
@ -1389,27 +1391,29 @@ public abstract class DisputeView extends ActivatableView<VBox, Void> {
}
private void updateChatMessageCount(Dispute dispute, JFXBadge chatBadge) {
if (chatBadge == null)
return;
// when the chat popup is active, we do not display new message count indicator for that item
if (chatPopup.isChatShown() && selectedDispute != null && dispute.getId().equals(selectedDispute.getId())) {
chatBadge.setText("");
chatBadge.setEnabled(false);
chatBadge.refreshBadge();
// have to UserThread.execute or the new message will be sent to peer as "read"
UserThread.execute(() -> dispute.setChatMessagesSeen(senderFlag()));
return;
}
UserThread.execute(() -> {
if (chatBadge == null)
return;
// when the chat popup is active, we do not display new message count indicator for that item
if (chatPopup.isChatShown() && selectedDispute != null && dispute.getId().equals(selectedDispute.getId())) {
chatBadge.setText("");
chatBadge.setEnabled(false);
chatBadge.refreshBadge();
// have to UserThread.execute or the new message will be sent to peer as "read"
UserThread.execute(() -> dispute.setChatMessagesSeen(senderFlag()));
return;
}
if (dispute.unreadMessageCount(senderFlag()) > 0) {
chatBadge.setText(String.valueOf(dispute.unreadMessageCount(senderFlag())));
chatBadge.setEnabled(true);
} else {
chatBadge.setText("");
chatBadge.setEnabled(false);
}
chatBadge.refreshBadge();
dispute.refreshAlertLevel(senderFlag());
if (dispute.unreadMessageCount(senderFlag()) > 0) {
chatBadge.setText(String.valueOf(dispute.unreadMessageCount(senderFlag())));
chatBadge.setEnabled(true);
} else {
chatBadge.setText("");
chatBadge.setEnabled(false);
}
chatBadge.refreshBadge();
dispute.refreshAlertLevel(senderFlag());
});
}
private String getCounterpartyName() {

View file

@ -92,12 +92,12 @@ public class Transitions {
public void fadeOutAndRemove(Node node, int duration, EventHandler<ActionEvent> handler) {
FadeTransition fade = fadeOut(node, getDuration(duration));
fade.setInterpolator(Interpolator.EASE_IN);
fade.setOnFinished(actionEvent -> {
fade.setOnFinished(actionEvent -> UserThread.execute(() -> {
((Pane) (node.getParent())).getChildren().remove(node);
//Profiler.printMsgWithTime("fadeOutAndRemove");
if (handler != null)
handler.handle(actionEvent);
});
}));
}
// Blur

View file

@ -112,6 +112,7 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
private static final int MAX_PERMITTED_MESSAGE_SIZE = 10 * 1024 * 1024; // 10 MB (425 offers resulted in about 660 kb, mailbox msg will add more to it) offer has usually 2 kb, mailbox 3kb.
//TODO decrease limits again after testing
private static final int SOCKET_TIMEOUT = (int) TimeUnit.SECONDS.toMillis(180);
private static final int MAX_CONNECTION_THREADS = 10;
public static int getPermittedMessageSize() {
return PERMITTED_MESSAGE_SIZE;
@ -130,6 +131,8 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
@Getter
private final String uid;
private final ExecutorService singleThreadExecutor = Executors.newSingleThreadExecutor(runnable -> new Thread(runnable, "Connection.java executor-service"));
private final ExecutorService connectionThreadPool = Executors.newFixedThreadPool(MAX_CONNECTION_THREADS);
// holder of state shared between InputHandler and Connection
@Getter
private final Statistic statistic;
@ -429,12 +432,18 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
// Only receive non - CloseConnectionMessage network_messages
@Override
public void onMessage(NetworkEnvelope networkEnvelope, Connection connection) {
checkArgument(connection.equals(this));
if (networkEnvelope instanceof BundleOfEnvelopes) {
onBundleOfEnvelopes((BundleOfEnvelopes) networkEnvelope, connection);
} else {
UserThread.execute(() -> messageListeners.forEach(e -> e.onMessage(networkEnvelope, connection)));
}
Connection that = this;
connectionThreadPool.submit(new Runnable() {
@Override
public void run() {
checkArgument(connection.equals(that));
if (networkEnvelope instanceof BundleOfEnvelopes) {
onBundleOfEnvelopes((BundleOfEnvelopes) networkEnvelope, connection);
} else {
messageListeners.forEach(e -> e.onMessage(networkEnvelope, connection));
}
}
});
}
private void onBundleOfEnvelopes(BundleOfEnvelopes bundleOfEnvelopes, Connection connection) {
@ -466,8 +475,8 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
envelopesToProcess.add(networkEnvelope);
}
}
envelopesToProcess.forEach(envelope -> UserThread.execute(() ->
messageListeners.forEach(listener -> listener.onMessage(envelope, connection))));
envelopesToProcess.forEach(envelope ->
messageListeners.forEach(listener -> listener.onMessage(envelope, connection)));
}
@ -793,11 +802,11 @@ public class Connection implements HasCapabilities, Runnable, MessageListener {
return;
}
// Throttle inbound network_messages
// Throttle inbound network messages
long now = System.currentTimeMillis();
long elapsed = now - lastReadTimeStamp;
if (elapsed < 10) {
log.debug("We got 2 network_messages received in less than 10 ms. We set the thread to sleep " +
log.info("We got 2 network messages received in less than 10 ms. We set the thread to sleep " +
"for 20 ms to avoid getting flooded by our peer. lastReadTimeStamp={}, now={}, elapsed={}",
lastReadTimeStamp, now, elapsed);
Thread.sleep(20);

View file

@ -1497,36 +1497,38 @@ message Trade {
enum State {
PB_ERROR_STATE = 0;
PREPARATION = 1;
TAKER_PUBLISHED_TAKER_FEE_TX = 2;
MAKER_SENT_PUBLISH_DEPOSIT_TX_REQUEST = 3;
MAKER_SAW_ARRIVED_PUBLISH_DEPOSIT_TX_REQUEST = 4;
MAKER_STORED_IN_MAILBOX_PUBLISH_DEPOSIT_TX_REQUEST = 5;
MAKER_SEND_FAILED_PUBLISH_DEPOSIT_TX_REQUEST = 6;
TAKER_RECEIVED_PUBLISH_DEPOSIT_TX_REQUEST = 7;
TAKER_PUBLISHED_DEPOSIT_TX = 8;
TAKER_SAW_DEPOSIT_TX_IN_NETWORK = 9;
TAKER_SENT_DEPOSIT_TX_PUBLISHED_MSG = 10;
TAKER_SAW_ARRIVED_DEPOSIT_TX_PUBLISHED_MSG = 11;
TAKER_STORED_IN_MAILBOX_DEPOSIT_TX_PUBLISHED_MSG = 12;
TAKER_SEND_FAILED_DEPOSIT_TX_PUBLISHED_MSG = 13;
MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG = 14;
MAKER_SAW_DEPOSIT_TX_IN_NETWORK = 15;
DEPOSIT_CONFIRMED_IN_BLOCK_CHAIN = 16;
BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED = 17;
BUYER_SENT_FIAT_PAYMENT_INITIATED_MSG = 18;
BUYER_SAW_ARRIVED_FIAT_PAYMENT_INITIATED_MSG = 19;
BUYER_STORED_IN_MAILBOX_FIAT_PAYMENT_INITIATED_MSG = 20;
BUYER_SEND_FAILED_FIAT_PAYMENT_INITIATED_MSG = 21;
SELLER_RECEIVED_FIAT_PAYMENT_INITIATED_MSG = 22;
SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT = 23;
SELLER_PUBLISHED_PAYOUT_TX = 24;
SELLER_SENT_PAYOUT_TX_PUBLISHED_MSG = 25;
SELLER_SAW_ARRIVED_PAYOUT_TX_PUBLISHED_MSG = 26;
SELLER_STORED_IN_MAILBOX_PAYOUT_TX_PUBLISHED_MSG = 27;
SELLER_SEND_FAILED_PAYOUT_TX_PUBLISHED_MSG = 28;
BUYER_RECEIVED_PAYOUT_TX_PUBLISHED_MSG = 29;
BUYER_SAW_PAYOUT_TX_IN_NETWORK = 30;
WITHDRAW_COMPLETED = 31;
CONTRACT_SIGNATURE_REQUESTED = 2;
CONTRACT_SIGNED = 3;
TAKER_PUBLISHED_TAKER_FEE_TX = 4;
MAKER_SENT_PUBLISH_DEPOSIT_TX_REQUEST = 5;
MAKER_SAW_ARRIVED_PUBLISH_DEPOSIT_TX_REQUEST = 6;
MAKER_STORED_IN_MAILBOX_PUBLISH_DEPOSIT_TX_REQUEST = 7;
MAKER_SEND_FAILED_PUBLISH_DEPOSIT_TX_REQUEST = 8;
TAKER_RECEIVED_PUBLISH_DEPOSIT_TX_REQUEST = 9;
TAKER_PUBLISHED_DEPOSIT_TX = 10;
TAKER_SAW_DEPOSIT_TX_IN_NETWORK = 11;
TAKER_SENT_DEPOSIT_TX_PUBLISHED_MSG = 12;
TAKER_SAW_ARRIVED_DEPOSIT_TX_PUBLISHED_MSG = 13;
TAKER_STORED_IN_MAILBOX_DEPOSIT_TX_PUBLISHED_MSG = 14;
TAKER_SEND_FAILED_DEPOSIT_TX_PUBLISHED_MSG = 15;
MAKER_RECEIVED_DEPOSIT_TX_PUBLISHED_MSG = 16;
MAKER_SAW_DEPOSIT_TX_IN_NETWORK = 17;
DEPOSIT_CONFIRMED_IN_BLOCK_CHAIN = 18;
BUYER_CONFIRMED_IN_UI_FIAT_PAYMENT_INITIATED = 19;
BUYER_SENT_FIAT_PAYMENT_INITIATED_MSG = 20;
BUYER_SAW_ARRIVED_FIAT_PAYMENT_INITIATED_MSG = 21;
BUYER_STORED_IN_MAILBOX_FIAT_PAYMENT_INITIATED_MSG = 22;
BUYER_SEND_FAILED_FIAT_PAYMENT_INITIATED_MSG = 23;
SELLER_RECEIVED_FIAT_PAYMENT_INITIATED_MSG = 24;
SELLER_CONFIRMED_IN_UI_FIAT_PAYMENT_RECEIPT = 25;
SELLER_PUBLISHED_PAYOUT_TX = 26;
SELLER_SENT_PAYOUT_TX_PUBLISHED_MSG = 27;
SELLER_SAW_ARRIVED_PAYOUT_TX_PUBLISHED_MSG = 28;
SELLER_STORED_IN_MAILBOX_PAYOUT_TX_PUBLISHED_MSG = 29;
SELLER_SEND_FAILED_PAYOUT_TX_PUBLISHED_MSG = 30;
BUYER_RECEIVED_PAYOUT_TX_PUBLISHED_MSG = 31;
BUYER_SAW_PAYOUT_TX_IN_NETWORK = 32;
WITHDRAW_COMPLETED = 33;
}
enum Phase {
@ -1654,9 +1656,8 @@ message ProcessModel {
NodeAddress temp_trading_peer_node_address = 1006;
string prepared_multisig_hex = 1007;
string made_multisig_hex = 1008;
bool multisig_setup_complete = 1009;
bool maker_ready_to_fund_multisig = 1010;
bool multisig_deposit_initiated = 1011;
string multisig_address = 1009;
bool multisig_setup_complete = 1010; // TODO: remove this field
}
message TradingPeer {