예제 #1
0
 private void parsePaymentRequest(Protos.PaymentRequest request) throws PaymentProtocolException {
   try {
     if (request == null) throw new PaymentProtocolException("request cannot be null");
     if (request.getPaymentDetailsVersion() != 1)
       throw new PaymentProtocolException.InvalidVersion(
           "Version 1 required. Received version " + request.getPaymentDetailsVersion());
     paymentRequest = request;
     if (!request.hasSerializedPaymentDetails())
       throw new PaymentProtocolException("No PaymentDetails");
     paymentDetails =
         Protos.PaymentDetails.newBuilder()
             .mergeFrom(request.getSerializedPaymentDetails())
             .build();
     if (paymentDetails == null) throw new PaymentProtocolException("Invalid PaymentDetails");
     if (!paymentDetails.hasNetwork()) params = MainNetParams.get();
     else params = NetworkParameters.fromPmtProtocolID(paymentDetails.getNetwork());
     if (params == null)
       throw new PaymentProtocolException.InvalidNetwork(
           "Invalid network " + paymentDetails.getNetwork());
     if (paymentDetails.getOutputsCount() < 1)
       throw new PaymentProtocolException.InvalidOutputs("No outputs");
     for (Protos.Output output : paymentDetails.getOutputsList()) {
       if (output.hasAmount()) totalValue = totalValue.add(Coin.valueOf(output.getAmount()));
     }
     // This won't ever happen in practice. It would only happen if the user provided outputs
     // that are obviously invalid. Still, we don't want to silently overflow.
     if (params.hasMaxMoney() && totalValue.compareTo(params.getMaxMoney()) > 0)
       throw new PaymentProtocolException.InvalidOutputs("The outputs are way too big.");
   } catch (InvalidProtocolBufferException e) {
     throw new PaymentProtocolException(e);
   }
 }
예제 #2
0
 /**
  * Returns the value of this output. This is the amount of currency that the destination address
  * receives.
  */
 public Coin getValue() {
   maybeParse();
   try {
     return Coin.valueOf(value);
   } catch (IllegalArgumentException e) {
     throw new IllegalStateException(e.getMessage(), e);
   }
 }
예제 #3
0
 /** Returns a {@link Wallet.SendRequest} suitable for broadcasting to the network. */
 public Wallet.SendRequest getSendRequest() {
   Transaction tx = new Transaction(params);
   for (Protos.Output output : paymentDetails.getOutputsList())
     tx.addOutput(
         new TransactionOutput(
             params, tx, Coin.valueOf(output.getAmount()), output.getScript().toByteArray()));
   return Wallet.SendRequest.forTx(tx).fromPaymentDetails(paymentDetails);
 }
예제 #4
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 /** Returns the outputs of the payment request. */
 public List<PaymentProtocol.Output> getOutputs() {
   List<PaymentProtocol.Output> outputs =
       new ArrayList<PaymentProtocol.Output>(paymentDetails.getOutputsCount());
   for (Protos.Output output : paymentDetails.getOutputsList()) {
     Coin amount = output.hasAmount() ? Coin.valueOf(output.getAmount()) : null;
     outputs.add(new PaymentProtocol.Output(amount, output.getScript().toByteArray()));
   }
   return outputs;
 }
 @Override
 public void deserializeWalletExtension(Wallet containingWallet, byte[] data) throws Exception {
   lock.lock();
   try {
     checkState(this.containingWallet == null || this.containingWallet == containingWallet);
     this.containingWallet = containingWallet;
     NetworkParameters params = containingWallet.getParams();
     ClientState.StoredClientPaymentChannels states =
         ClientState.StoredClientPaymentChannels.parseFrom(data);
     for (ClientState.StoredClientPaymentChannel storedState : states.getChannelsList()) {
       Transaction refundTransaction =
           params
               .getDefaultSerializer()
               .makeTransaction(storedState.getRefundTransaction().toByteArray());
       refundTransaction.getConfidence().setSource(TransactionConfidence.Source.SELF);
       ECKey myKey =
           (storedState.getMyKey().isEmpty())
               ? containingWallet.findKeyFromPubKey(storedState.getMyPublicKey().toByteArray())
               : ECKey.fromPrivate(storedState.getMyKey().toByteArray());
       StoredClientChannel channel =
           new StoredClientChannel(
               Sha256Hash.wrap(storedState.getId().toByteArray()),
               params
                   .getDefaultSerializer()
                   .makeTransaction(storedState.getContractTransaction().toByteArray()),
               refundTransaction,
               myKey,
               Coin.valueOf(storedState.getValueToMe()),
               Coin.valueOf(storedState.getRefundFees()),
               false);
       if (storedState.hasCloseTransactionHash()) {
         Sha256Hash closeTxHash =
             Sha256Hash.wrap(storedState.getCloseTransactionHash().toByteArray());
         channel.close = containingWallet.getTransaction(closeTxHash);
       }
       putChannel(channel, false);
     }
   } finally {
     lock.unlock();
   }
 }
예제 #6
0
  @Test
  public void testReceiveCoinbaseTransaction() throws Exception {
    // Block 169482 (hash 0000000000000756935f1ee9d5987857b604046f846d3df56d024cdb5f368665)
    // contains coinbase transactions that are mining pool shares.
    // The private key MINERS_KEY is used to check transactions are received by a wallet correctly.

    // The address for this private key is 1GqtGtn4fctXuKxsVzRPSLmYWN1YioLi9y.
    final String MINING_PRIVATE_KEY = "5JDxPrBRghF1EvSBjDigywqfmAjpHPmTJxYtQTYJxJRHLLQA4mG";

    final long BLOCK_NONCE = 3973947400L;
    final Coin BALANCE_AFTER_BLOCK = Coin.valueOf(22223642);
    final NetworkParameters PARAMS = MainNetParams.get();

    Block block169482 =
        PARAMS
            .getDefaultSerializer()
            .makeBlock(ByteStreams.toByteArray(getClass().getResourceAsStream("block169482.dat")));

    // Check block.
    assertNotNull(block169482);
    block169482.verify(169482, EnumSet.noneOf(Block.VerifyFlag.class));
    assertEquals(BLOCK_NONCE, block169482.getNonce());

    StoredBlock storedBlock =
        new StoredBlock(block169482, BigInteger.ONE, 169482); // Nonsense work - not used in test.

    // Create a wallet contain the miner's key that receives a spend from a coinbase.
    ECKey miningKey = DumpedPrivateKey.fromBase58(PARAMS, MINING_PRIVATE_KEY).getKey();
    assertNotNull(miningKey);
    Context context = new Context(PARAMS);
    Wallet wallet = new Wallet(context);
    wallet.importKey(miningKey);

    // Initial balance should be zero by construction.
    assertEquals(Coin.ZERO, wallet.getBalance());

    // Give the wallet the first transaction in the block - this is the coinbase tx.
    List<Transaction> transactions = block169482.getTransactions();
    assertNotNull(transactions);
    wallet.receiveFromBlock(transactions.get(0), storedBlock, NewBlockType.BEST_CHAIN, 0);

    // Coinbase transaction should have been received successfully but be unavailable to spend (too
    // young).
    assertEquals(BALANCE_AFTER_BLOCK, wallet.getBalance(BalanceType.ESTIMATED));
    assertEquals(Coin.ZERO, wallet.getBalance(BalanceType.AVAILABLE));
  }
예제 #7
0
 /** Returns a human readable debug string. */
 @Override
 public String toString() {
   try {
     Script script = getScriptPubKey();
     StringBuilder buf = new StringBuilder("TxOut of ");
     buf.append(Coin.valueOf(value).toFriendlyString());
     if (script.isSentToAddress() || script.isPayToScriptHash())
       buf.append(" to ").append(script.getToAddress(params));
     else if (script.isSentToRawPubKey())
       buf.append(" to pubkey ").append(Utils.HEX.encode(script.getPubKey()));
     else if (script.isSentToMultiSig()) buf.append(" to multisig");
     else buf.append(" (unknown type)");
     buf.append(" script:");
     buf.append(script);
     return buf.toString();
   } catch (ScriptException e) {
     throw new RuntimeException(e);
   }
 }
  private void readTransaction(Protos.Transaction txProto, NetworkParameters params)
      throws UnreadableWalletException {
    Transaction tx = new Transaction(params);
    if (txProto.hasUpdatedAt()) {
      tx.setUpdateTime(new Date(txProto.getUpdatedAt()));
    }

    for (Protos.TransactionOutput outputProto : txProto.getTransactionOutputList()) {
      Coin value = Coin.valueOf(outputProto.getValue());
      byte[] scriptBytes = outputProto.getScriptBytes().toByteArray();
      TransactionOutput output = new TransactionOutput(params, tx, value, scriptBytes);
      tx.addOutput(output);
    }

    for (Protos.TransactionInput inputProto : txProto.getTransactionInputList()) {
      byte[] scriptBytes = inputProto.getScriptBytes().toByteArray();
      TransactionOutPoint outpoint =
          new TransactionOutPoint(
              params,
              inputProto.getTransactionOutPointIndex() & 0xFFFFFFFFL,
              byteStringToHash(inputProto.getTransactionOutPointHash()));
      Coin value = inputProto.hasValue() ? Coin.valueOf(inputProto.getValue()) : null;
      TransactionInput input = new TransactionInput(params, tx, scriptBytes, outpoint, value);
      if (inputProto.hasSequence()) {
        input.setSequenceNumber(inputProto.getSequence());
      }
      tx.addInput(input);
    }

    for (int i = 0; i < txProto.getBlockHashCount(); i++) {
      ByteString blockHash = txProto.getBlockHash(i);
      int relativityOffset = 0;
      if (txProto.getBlockRelativityOffsetsCount() > 0)
        relativityOffset = txProto.getBlockRelativityOffsets(i);
      tx.addBlockAppearance(byteStringToHash(blockHash), relativityOffset);
    }

    if (txProto.hasLockTime()) {
      tx.setLockTime(0xffffffffL & txProto.getLockTime());
    }

    if (txProto.hasPurpose()) {
      switch (txProto.getPurpose()) {
        case UNKNOWN:
          tx.setPurpose(Transaction.Purpose.UNKNOWN);
          break;
        case USER_PAYMENT:
          tx.setPurpose(Transaction.Purpose.USER_PAYMENT);
          break;
        case KEY_ROTATION:
          tx.setPurpose(Transaction.Purpose.KEY_ROTATION);
          break;
        case ASSURANCE_CONTRACT_CLAIM:
          tx.setPurpose(Transaction.Purpose.ASSURANCE_CONTRACT_CLAIM);
          break;
        case ASSURANCE_CONTRACT_PLEDGE:
          tx.setPurpose(Transaction.Purpose.ASSURANCE_CONTRACT_PLEDGE);
          break;
        case ASSURANCE_CONTRACT_STUB:
          tx.setPurpose(Transaction.Purpose.ASSURANCE_CONTRACT_STUB);
          break;
        default:
          throw new RuntimeException("New purpose serialization not implemented");
      }
    } else {
      // Old wallet: assume a user payment as that's the only reason a new tx would have been
      // created back then.
      tx.setPurpose(Transaction.Purpose.USER_PAYMENT);
    }

    if (txProto.hasExchangeRate()) {
      Protos.ExchangeRate exchangeRateProto = txProto.getExchangeRate();
      tx.setExchangeRate(
          new ExchangeRate(
              Coin.valueOf(exchangeRateProto.getCoinValue()),
              Fiat.valueOf(
                  exchangeRateProto.getFiatCurrencyCode(), exchangeRateProto.getFiatValue())));
    }

    if (txProto.hasMemo()) tx.setMemo(txProto.getMemo());

    // Peercoin: Include time
    tx.setTime(txProto.getTime());

    // Transaction should now be complete.
    Sha256Hash protoHash = byteStringToHash(txProto.getHash());
    if (!tx.getHash().equals(protoHash))
      throw new UnreadableWalletException(
          String.format(
              "Transaction did not deserialize completely: %s vs %s", tx.getHash(), protoHash));
    if (txMap.containsKey(txProto.getHash()))
      throw new UnreadableWalletException(
          "Wallet contained duplicate transaction " + byteStringToHash(txProto.getHash()));
    txMap.put(txProto.getHash(), tx);
  }
예제 #9
0
 /** Returns a copy of the output detached from its containing transaction, if need be. */
 public TransactionOutput duplicateDetached() {
   return new TransactionOutput(
       params, null, Coin.valueOf(value), org.spongycastle.util.Arrays.clone(scriptBytes));
 }