Examples with WalletException io.bitsquare.btc.exceptions.WalletException used on opensource projects

Example 1 with WalletException

use of io.bitsquare.btc.exceptions.WalletException in project bitsquare by bitsquare.

the class SpendFromDepositTxWindow method addContent.

private void addContent() {
    InputTextField depositTxHex = addLabelInputTextField(gridPane, ++rowIndex, "depositTxHex:").second;
    InputTextField buyerPayoutAmount = addLabelInputTextField(gridPane, ++rowIndex, "buyerPayoutAmount:").second;
    InputTextField sellerPayoutAmount = addLabelInputTextField(gridPane, ++rowIndex, "sellerPayoutAmount:").second;
    InputTextField arbitratorPayoutAmount = addLabelInputTextField(gridPane, ++rowIndex, "arbitratorPayoutAmount:").second;
    InputTextField buyerAddressString = addLabelInputTextField(gridPane, ++rowIndex, "buyerAddressString:").second;
    InputTextField sellerAddressString = addLabelInputTextField(gridPane, ++rowIndex, "sellerAddressString:").second;
    InputTextField arbitratorAddressString = addLabelInputTextField(gridPane, ++rowIndex, "arbitratorAddressString:").second;
    InputTextField buyerPrivateKeyAsHex = addLabelInputTextField(gridPane, ++rowIndex, "buyerPrivateKeyAsHex:").second;
    InputTextField sellerPrivateKeyAsHex = addLabelInputTextField(gridPane, ++rowIndex, "sellerPrivateKeyAsHex:").second;
    InputTextField arbitratorPrivateKeyAsHex = addLabelInputTextField(gridPane, ++rowIndex, "arbitratorPrivateKeyAsHex:").second;
    InputTextField buyerPubKeyAsHex = addLabelInputTextField(gridPane, ++rowIndex, "buyerPubKeyAsHex:").second;
    InputTextField sellerPubKeyAsHex = addLabelInputTextField(gridPane, ++rowIndex, "sellerPubKeyAsHex:").second;
    InputTextField arbitratorPubKeyAsHex = addLabelInputTextField(gridPane, ++rowIndex, "arbitratorPubKeyAsHex:").second;
    InputTextField P2SHMultiSigOutputScript = addLabelInputTextField(gridPane, ++rowIndex, "P2SHMultiSigOutputScript:").second;
    // Notes: 
    // Open with alt+g and enable DEV mode
    // Priv key is only visible if pw protection is removed (wallet details data (alt+j))
    // Take P2SHMultiSigOutputScript from depositTx in blockexplorer 
    // Take missing buyerPubKeyAsHex and sellerPubKeyAsHex from contract data!
    // Lookup sellerPrivateKeyAsHex associated with sellerPubKeyAsHex (or buyers) in wallet details data 
    // sellerPubKeys/buyerPubKeys are auto generated if used the fields below
    // Never set the priv arbitr. key here!
    depositTxHex.setText("");
    P2SHMultiSigOutputScript.setText("");
    buyerPayoutAmount.setText("1.03");
    sellerPayoutAmount.setText("0.03");
    arbitratorPayoutAmount.setText("0");
    buyerAddressString.setText("");
    buyerPubKeyAsHex.setText("");
    buyerPrivateKeyAsHex.setText("");
    sellerAddressString.setText("");
    sellerPubKeyAsHex.setText("");
    sellerPrivateKeyAsHex.setText("");
    //4.9 (pkfcmj42c6es6tjt.onion)
    // arbitratorAddressString.setText("19xdeiQM2Hn2M2wbpT5imcYWzqhiSDHPy4");
    // arbitratorPubKeyAsHex.setText("02c62e794fe67f3a2115e2de4757143ff7f27bdf38aa4ae58a3595baa6d676875b");
    // 4.2 (ntjhaj27rylxwvnp.onion)
    arbitratorAddressString.setText("1FdFzBazmHQxbUbdCUJwuCtR37DrZrEobu");
    arbitratorPubKeyAsHex.setText("030fdc2ebc297df4047442f6079f1ce3b7d1938a41f88bd11497545cc94fcfd315");
    actionButtonText("Sign and publish transaction");
    FutureCallback<Transaction> callback = new FutureCallback<Transaction>() {

        @Override
        public void onSuccess(@Nullable Transaction result) {
            log.error("onSuccess");
            UserThread.execute(() -> {
                String txId = result != null ? result.getHashAsString() : "null";
                new Popup<>().information("Transaction successful published. Transaction ID: " + txId).show();
            });
        }

        @Override
        public void onFailure(Throwable t) {
            log.error(t.toString());
            log.error("onFailure");
            UserThread.execute(() -> new Popup<>().warning(t.toString()).show());
        }
    };
    onAction(() -> {
        try {
            tradeWalletService.emergencySignAndPublishPayoutTx(depositTxHex.getText(), Coin.parseCoin(buyerPayoutAmount.getText()), Coin.parseCoin(sellerPayoutAmount.getText()), Coin.parseCoin(arbitratorPayoutAmount.getText()), buyerAddressString.getText(), sellerAddressString.getText(), arbitratorAddressString.getText(), buyerPrivateKeyAsHex.getText(), sellerPrivateKeyAsHex.getText(), arbitratorPrivateKeyAsHex.getText(), buyerPubKeyAsHex.getText(), sellerPubKeyAsHex.getText(), arbitratorPubKeyAsHex.getText(), P2SHMultiSigOutputScript.getText(), callback);
        } catch (AddressFormatException | WalletException | TransactionVerificationException e) {
            log.error(e.toString());
            e.printStackTrace();
            UserThread.execute(() -> new Popup<>().warning(e.toString()).show());
        }
    });
}

Example 2 with WalletException

use of io.bitsquare.btc.exceptions.WalletException in project bitsquare by bitsquare.

the class DisputeManager method onDisputeResultMessage.

// We get that message at both peers. The dispute object is in context of the trader
private void onDisputeResultMessage(DisputeResultMessage disputeResultMessage) {
    DisputeResult disputeResult = disputeResultMessage.disputeResult;
    if (!isArbitrator(disputeResult)) {
        final String tradeId = disputeResult.tradeId;
        Optional<Dispute> disputeOptional = findDispute(tradeId, disputeResult.traderId);
        final String uid = disputeResultMessage.getUID();
        if (disputeOptional.isPresent()) {
            cleanupRetryMap(uid);
            Dispute dispute = disputeOptional.get();
            DisputeCommunicationMessage disputeCommunicationMessage = disputeResult.getDisputeCommunicationMessage();
            if (!dispute.getDisputeCommunicationMessagesAsObservableList().contains(disputeCommunicationMessage))
                dispute.addDisputeMessage(disputeCommunicationMessage);
            else
                log.warn("We got a dispute mail msg what we have already stored. TradeId = " + disputeCommunicationMessage.getTradeId());
            dispute.setIsClosed(true);
            if (dispute.disputeResultProperty().get() != null)
                log.warn("We got already a dispute result. That should only happen if a dispute needs to be closed " + "again because the first close did not succeed. TradeId = " + tradeId);
            dispute.setDisputeResult(disputeResult);
            // We need to avoid publishing the tx from both traders as it would create problems with zero confirmation withdrawals
            // There would be different transactions if both sign and publish (signers: once buyer+arb, once seller+arb)
            // The tx publisher is the winner or in case both get 50% the buyer, as the buyer has more inventive to publish the tx as he receives 
            // more BTC as he has deposited
            final Contract contract = dispute.getContract();
            boolean isBuyer = keyRing.getPubKeyRing().equals(contract.getBuyerPubKeyRing());
            DisputeResult.Winner publisher = disputeResult.getWinner();
            // Default isLoserPublisher is set to false
            if (disputeResult.isLoserPublisher()) {
                // we invert the logic
                if (publisher == DisputeResult.Winner.BUYER)
                    publisher = DisputeResult.Winner.SELLER;
                else if (publisher == DisputeResult.Winner.SELLER)
                    publisher = DisputeResult.Winner.BUYER;
            }
            if ((isBuyer && publisher == DisputeResult.Winner.BUYER) || (!isBuyer && publisher == DisputeResult.Winner.SELLER) || (isBuyer && publisher == DisputeResult.Winner.STALE_MATE)) {
                final Optional<Trade> tradeOptional = tradeManager.getTradeById(tradeId);
                Transaction payoutTx = null;
                if (tradeOptional.isPresent()) {
                    payoutTx = tradeOptional.get().getPayoutTx();
                } else {
                    final Optional<Tradable> tradableOptional = closedTradableManager.getTradableById(tradeId);
                    if (tradableOptional.isPresent() && tradableOptional.get() instanceof Trade) {
                        payoutTx = ((Trade) tradableOptional.get()).getPayoutTx();
                    }
                }
                if (payoutTx == null) {
                    if (dispute.getDepositTxSerialized() != null) {
                        try {
                            log.debug("do payout Transaction ");
                            AddressEntry multiSigAddressEntry = walletService.getOrCreateAddressEntry(dispute.getTradeId(), AddressEntry.Context.MULTI_SIG);
                            Transaction signedDisputedPayoutTx = tradeWalletService.traderSignAndFinalizeDisputedPayoutTx(dispute.getDepositTxSerialized(), disputeResult.getArbitratorSignature(), disputeResult.getBuyerPayoutAmount(), disputeResult.getSellerPayoutAmount(), disputeResult.getArbitratorPayoutAmount(), contract.getBuyerPayoutAddressString(), contract.getSellerPayoutAddressString(), disputeResult.getArbitratorAddressAsString(), multiSigAddressEntry.getKeyPair(), contract.getBuyerMultiSigPubKey(), contract.getSellerMultiSigPubKey(), disputeResult.getArbitratorPubKey());
                            Transaction committedDisputedPayoutTx = tradeWalletService.addTransactionToWallet(signedDisputedPayoutTx);
                            log.debug("broadcast committedDisputedPayoutTx");
                            tradeWalletService.broadcastTx(committedDisputedPayoutTx, new FutureCallback<Transaction>() {

                                @Override
                                public void onSuccess(Transaction transaction) {
                                    log.debug("BroadcastTx succeeded. Transaction:" + transaction);
                                    // after successful publish we send peer the tx
                                    dispute.setDisputePayoutTxId(transaction.getHashAsString());
                                    sendPeerPublishedPayoutTxMessage(transaction, dispute, contract);
                                    // set state after payout as we call swapTradeEntryToAvailableEntry 
                                    if (tradeManager.getTradeById(dispute.getTradeId()).isPresent())
                                        tradeManager.closeDisputedTrade(dispute.getTradeId());
                                    else {
                                        Optional<OpenOffer> openOfferOptional = openOfferManager.getOpenOfferById(dispute.getTradeId());
                                        if (openOfferOptional.isPresent())
                                            openOfferManager.closeOpenOffer(openOfferOptional.get().getOffer());
                                    }
                                }

                                @Override
                                public void onFailure(@NotNull Throwable t) {
                                    log.error(t.getMessage());
                                }
                            });
                        } catch (AddressFormatException | WalletException | TransactionVerificationException e) {
                            e.printStackTrace();
                            log.error("Error at traderSignAndFinalizeDisputedPayoutTx " + e.getMessage());
                        }
                    } else {
                        log.warn("DepositTx is null. TradeId = " + tradeId);
                    }
                } else {
                    log.warn("We got already a payout tx. That might be the case if the other peer did not get the " + "payout tx and opened a dispute. TradeId = " + tradeId);
                    dispute.setDisputePayoutTxId(payoutTx.getHashAsString());
                    sendPeerPublishedPayoutTxMessage(payoutTx, dispute, contract);
                }
            } else {
                log.trace("We don't publish the tx as we are not the winning party.");
                // Clean up tangling trades
                if (dispute.disputeResultProperty().get() != null && dispute.isClosed() && tradeManager.getTradeById(dispute.getTradeId()).isPresent())
                    tradeManager.closeDisputedTrade(dispute.getTradeId());
            }
        } else {
            log.debug("We got a dispute result msg but we don't have a matching dispute. " + "That might happen when we get the disputeResultMessage before the dispute was created. " + "We try again after 2 sec. to apply the disputeResultMessage. TradeId = " + tradeId);
            if (!delayMsgMap.containsKey(uid)) {
                // We delay2 sec. to be sure the comm. msg gets added first
                Timer timer = UserThread.runAfter(() -> onDisputeResultMessage(disputeResultMessage), 2);
                delayMsgMap.put(uid, timer);
            } else {
                log.warn("We got a dispute result msg after we already repeated to apply the message after a delay. " + "That should never happen. TradeId = " + tradeId);
            }
        }
    } else {
        log.error("Arbitrator received disputeResultMessage. That must never happen.");
    }
}

Example 3 with WalletException

use of io.bitsquare.btc.exceptions.WalletException in project bitsquare by bitsquare.

the class TradeWalletService method checkWalletConsistency.

private void checkWalletConsistency() throws WalletException {
    try {
        log.trace("Check if wallet is consistent before commit.");
        checkNotNull(wallet);
        checkState(wallet.isConsistent());
    } catch (Throwable t) {
        t.printStackTrace();
        log.error(t.getMessage());
        throw new WalletException(t);
    }
}

Example 4 with WalletException

use of io.bitsquare.btc.exceptions.WalletException in project bitsquare by bitsquare.

the class TradeWalletService method addAvailableInputsAndChangeOutputs.

private void addAvailableInputsAndChangeOutputs(Transaction transaction, Address address, Address changeAddress) throws WalletException {
    try {
        // Lets let the framework do the work to find the right inputs
        Wallet.SendRequest sendRequest = Wallet.SendRequest.forTx(transaction);
        sendRequest.shuffleOutputs = false;
        sendRequest.aesKey = aesKey;
        // We use a fixed fee
        sendRequest.feePerKb = Coin.ZERO;
        sendRequest.fee = FeePolicy.getFixedTxFeeForTrades();
        // we allow spending of unconfirmed tx (double spend risk is low and usability would suffer if we need to wait for 1 confirmation)
        sendRequest.coinSelector = new TradeWalletCoinSelector(params, address);
        // We use always the same address in a trade for all transactions
        sendRequest.changeAddress = changeAddress;
        // With the usage of completeTx() we get all the work done with fee calculation, validation and coin selection.
        // We don't commit that tx to the wallet as it will be changed later and it's not signed yet.
        // So it will not change the wallet balance.
        checkNotNull(wallet, "wallet must not be null");
        wallet.completeTx(sendRequest);
    } catch (Throwable t) {
        throw new WalletException(t);
    }
}