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arbitrator always includes dispute payout tx
sync wallet before processing remove extraneous wallet syncs
This commit is contained in:
parent
8ec76aa1cd
commit
8820a87286
3 changed files with 60 additions and 68 deletions
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@ -734,7 +734,7 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
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UUID.randomUUID().toString(),
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getSupportType(),
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trade.getSelf().getUpdatedMultisigHex(),
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trade.isPayoutPublished() ? null : unsignedPayoutTxHex, // include dispute payout tx if unpublished and arbitrator has their updated multisig info
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unsignedPayoutTxHex, // include dispute payout tx if arbitrator has their updated multisig info
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deferPublishPayout); // instruct trader to defer publishing payout tx because peer is expected to publish imminently
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// send dispute closed message
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@ -835,70 +835,65 @@ public abstract class DisputeManager<T extends DisputeList<Dispute>> extends Sup
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}
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}
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// sync and save wallet
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trade.syncWallet();
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trade.saveWallet();
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// create unsigned dispute payout tx
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if (!trade.isPayoutPublished()) {
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log.info("Arbitrator creating unsigned dispute payout tx for trade {}", trade.getId());
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try {
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log.info("Arbitrator creating unsigned dispute payout tx for trade {}", trade.getId());
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try {
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// trade wallet must be synced
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if (trade.getWallet().isMultisigImportNeeded()) throw new RuntimeException("Arbitrator's wallet needs updated multisig hex to create payout tx which means a trader must have already broadcast the payout tx for trade " + dispute.getTradeId());
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// trade wallet must be synced
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if (trade.getWallet().isMultisigImportNeeded()) throw new RuntimeException("Arbitrator's wallet needs updated multisig hex to create payout tx which means a trader must have already broadcast the payout tx for trade " + dispute.getTradeId());
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// collect winner and loser payout address and amounts
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Contract contract = dispute.getContract();
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String winnerPayoutAddress = disputeResult.getWinner() == Winner.BUYER ?
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(contract.isBuyerMakerAndSellerTaker() ? contract.getMakerPayoutAddressString() : contract.getTakerPayoutAddressString()) :
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(contract.isBuyerMakerAndSellerTaker() ? contract.getTakerPayoutAddressString() : contract.getMakerPayoutAddressString());
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String loserPayoutAddress = winnerPayoutAddress.equals(contract.getMakerPayoutAddressString()) ? contract.getTakerPayoutAddressString() : contract.getMakerPayoutAddressString();
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BigInteger winnerPayoutAmount = HavenoUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getBuyerPayoutAmount() : disputeResult.getSellerPayoutAmount());
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BigInteger loserPayoutAmount = HavenoUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getSellerPayoutAmount() : disputeResult.getBuyerPayoutAmount());
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// collect winner and loser payout address and amounts
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Contract contract = dispute.getContract();
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String winnerPayoutAddress = disputeResult.getWinner() == Winner.BUYER ?
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(contract.isBuyerMakerAndSellerTaker() ? contract.getMakerPayoutAddressString() : contract.getTakerPayoutAddressString()) :
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(contract.isBuyerMakerAndSellerTaker() ? contract.getTakerPayoutAddressString() : contract.getMakerPayoutAddressString());
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String loserPayoutAddress = winnerPayoutAddress.equals(contract.getMakerPayoutAddressString()) ? contract.getTakerPayoutAddressString() : contract.getMakerPayoutAddressString();
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BigInteger winnerPayoutAmount = HavenoUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getBuyerPayoutAmount() : disputeResult.getSellerPayoutAmount());
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BigInteger loserPayoutAmount = HavenoUtils.coinToAtomicUnits(disputeResult.getWinner() == Winner.BUYER ? disputeResult.getSellerPayoutAmount() : disputeResult.getBuyerPayoutAmount());
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// check sufficient balance
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if (winnerPayoutAmount.compareTo(BigInteger.ZERO) < 0) throw new RuntimeException("Winner payout cannot be negative");
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if (loserPayoutAmount.compareTo(BigInteger.ZERO) < 0) throw new RuntimeException("Loser payout cannot be negative");
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if (winnerPayoutAmount.add(loserPayoutAmount).compareTo(trade.getWallet().getUnlockedBalance()) > 0) {
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throw new RuntimeException("The payout amounts are more than the wallet's unlocked balance");
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}
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// add any loss of precision to winner payout
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winnerPayoutAmount = winnerPayoutAmount.add(trade.getWallet().getUnlockedBalance().subtract(winnerPayoutAmount.add(loserPayoutAmount)));
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// create transaction to get fee estimate
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MoneroTxConfig txConfig = new MoneroTxConfig().setAccountIndex(0).setRelay(false);
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if (winnerPayoutAmount.compareTo(BigInteger.ZERO) > 0) txConfig.addDestination(winnerPayoutAddress, winnerPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10))); // reduce payment amount to get fee of similar tx
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if (loserPayoutAmount.compareTo(BigInteger.ZERO) > 0) txConfig.addDestination(loserPayoutAddress, loserPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10)));
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MoneroTxWallet feeEstimateTx = trade.getWallet().createTx(txConfig);
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// create payout tx by increasing estimated fee until successful
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MoneroTxWallet payoutTx = null;
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int numAttempts = 0;
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while (payoutTx == null && numAttempts < 50) {
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BigInteger feeEstimate = feeEstimateTx.getFee().add(feeEstimateTx.getFee().multiply(BigInteger.valueOf(numAttempts)).divide(BigInteger.valueOf(10))); // add 1/10th of fee until tx is successful
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txConfig = new MoneroTxConfig().setAccountIndex(0).setRelay(false);
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if (winnerPayoutAmount.compareTo(BigInteger.ZERO) > 0) txConfig.addDestination(winnerPayoutAddress, winnerPayoutAmount.subtract(loserPayoutAmount.equals(BigInteger.ZERO) ? feeEstimate : BigInteger.ZERO)); // winner only pays fee if loser gets 0
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if (loserPayoutAmount.compareTo(BigInteger.ZERO) > 0) {
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if (loserPayoutAmount.compareTo(feeEstimate) < 0) throw new RuntimeException("Loser payout is too small to cover the mining fee");
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if (loserPayoutAmount.compareTo(feeEstimate) > 0) txConfig.addDestination(loserPayoutAddress, loserPayoutAmount.subtract(feeEstimate)); // loser pays fee
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}
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numAttempts++;
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try {
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payoutTx = trade.getWallet().createTx(txConfig);
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} catch (MoneroError e) {
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// exception expected // TODO: better way of estimating fee?
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}
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}
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if (payoutTx == null) throw new RuntimeException("Failed to generate dispute payout tx after " + numAttempts + " attempts");
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log.info("Dispute payout transaction generated on attempt {}", numAttempts);
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// save updated multisig hex
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trade.getSelf().setUpdatedMultisigHex(trade.getWallet().exportMultisigHex());
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return payoutTx;
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} catch (Exception e) {
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if (!trade.isPayoutPublished()) throw e;
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// check sufficient balance
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if (winnerPayoutAmount.compareTo(BigInteger.ZERO) < 0) throw new RuntimeException("Winner payout cannot be negative");
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if (loserPayoutAmount.compareTo(BigInteger.ZERO) < 0) throw new RuntimeException("Loser payout cannot be negative");
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if (winnerPayoutAmount.add(loserPayoutAmount).compareTo(trade.getWallet().getUnlockedBalance()) > 0) {
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throw new RuntimeException("The payout amounts are more than the wallet's unlocked balance");
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}
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// add any loss of precision to winner payout
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winnerPayoutAmount = winnerPayoutAmount.add(trade.getWallet().getUnlockedBalance().subtract(winnerPayoutAmount.add(loserPayoutAmount)));
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// create transaction to get fee estimate
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MoneroTxConfig txConfig = new MoneroTxConfig().setAccountIndex(0).setRelay(false);
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if (winnerPayoutAmount.compareTo(BigInteger.ZERO) > 0) txConfig.addDestination(winnerPayoutAddress, winnerPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10))); // reduce payment amount to get fee of similar tx
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if (loserPayoutAmount.compareTo(BigInteger.ZERO) > 0) txConfig.addDestination(loserPayoutAddress, loserPayoutAmount.multiply(BigInteger.valueOf(9)).divide(BigInteger.valueOf(10)));
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MoneroTxWallet feeEstimateTx = trade.getWallet().createTx(txConfig);
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// create payout tx by increasing estimated fee until successful
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MoneroTxWallet payoutTx = null;
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int numAttempts = 0;
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while (payoutTx == null && numAttempts < 50) {
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BigInteger feeEstimate = feeEstimateTx.getFee().add(feeEstimateTx.getFee().multiply(BigInteger.valueOf(numAttempts)).divide(BigInteger.valueOf(10))); // add 1/10th of fee until tx is successful
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txConfig = new MoneroTxConfig().setAccountIndex(0).setRelay(false);
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if (winnerPayoutAmount.compareTo(BigInteger.ZERO) > 0) txConfig.addDestination(winnerPayoutAddress, winnerPayoutAmount.subtract(loserPayoutAmount.equals(BigInteger.ZERO) ? feeEstimate : BigInteger.ZERO)); // winner only pays fee if loser gets 0
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if (loserPayoutAmount.compareTo(BigInteger.ZERO) > 0) {
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if (loserPayoutAmount.compareTo(feeEstimate) < 0) throw new RuntimeException("Loser payout is too small to cover the mining fee");
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if (loserPayoutAmount.compareTo(feeEstimate) > 0) txConfig.addDestination(loserPayoutAddress, loserPayoutAmount.subtract(feeEstimate)); // loser pays fee
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}
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numAttempts++;
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try {
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payoutTx = trade.getWallet().createTx(txConfig);
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} catch (MoneroError e) {
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// exception expected // TODO: better way of estimating fee?
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}
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}
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if (payoutTx == null) throw new RuntimeException("Failed to generate dispute payout tx after " + numAttempts + " attempts");
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log.info("Dispute payout transaction generated on attempt {}", numAttempts);
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// save updated multisig hex
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trade.getSelf().setUpdatedMultisigHex(trade.getWallet().exportMultisigHex());
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return payoutTx;
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} catch (Exception e) {
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trade.syncWallet();
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if (!trade.isPayoutPublished()) throw e;
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}
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}
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return null; // can be null if already published or we don't have receiver's multisig hex
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@ -251,22 +251,19 @@ public final class ArbitrationManager extends DisputeManager<ArbitrationDisputeL
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log.info("We already got a dispute result, indicating the message was resent after updating multisig info. TradeId = " + tradeId);
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}
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dispute.setDisputeResult(disputeResult);
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// sync and save wallet
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trade.syncWallet();
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trade.saveWallet();
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// attempt to sign and publish dispute payout tx if given and not already published
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if (disputeClosedMessage.getUnsignedPayoutTxHex() != null && !trade.isPayoutPublished()) {
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// check wallet connection
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trade.checkWalletConnection();
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// import multisig hex
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List<String> updatedMultisigHexes = new ArrayList<String>();
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if (trade.getTradePeer().getUpdatedMultisigHex() != null) updatedMultisigHexes.add(trade.getTradePeer().getUpdatedMultisigHex());
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if (trade.getArbitrator().getUpdatedMultisigHex() != null) updatedMultisigHexes.add(trade.getArbitrator().getUpdatedMultisigHex());
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if (!updatedMultisigHexes.isEmpty()) trade.getWallet().importMultisigHex(updatedMultisigHexes.toArray(new String[0])); // TODO (monero-project): fails if multisig hex imported individually
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// sync and save wallet
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trade.syncWallet();
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trade.saveWallet();
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// wait to sign and publish payout tx if defer flag set
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if (disputeClosedMessage.isDeferPublishPayout()) {
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@ -60,7 +60,7 @@ public abstract class SendMailboxMessageTask extends TradeTask {
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TradeMailboxMessage message = getTradeMailboxMessage(id);
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setStateSent();
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NodeAddress peersNodeAddress = getReceiverNodeAddress();
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log.info("Send {} to peer {}. tradeId={}, uid={}",
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log.info("Send {} to peer {} for {} {}", trade.getClass().getSimpleName(), trade.getId(),
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message.getClass().getSimpleName(), peersNodeAddress, message.getTradeId(), message.getUid());
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TradeTask task = this;
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