Beispiel #1
0
  @Test
  public void getLargeBlock() throws Exception {
    connect();

    Block b1 = createFakeBlock(blockStore).block;
    blockChain.add(b1);
    Block b2 = makeSolvedTestBlock(b1);
    Transaction t = new Transaction(unitTestParams);
    t.addInput(b1.getTransactions().get(0).getOutput(0));
    t.addOutput(
        new TransactionOutput(
            unitTestParams, t, BigInteger.ZERO, new byte[Block.MAX_BLOCK_SIZE - 1000]));
    b2.addTransaction(t);

    // Request the block.
    Future<Block> resultFuture = peer.getBlock(b2.getHash());
    assertFalse(resultFuture.isDone());
    // Peer asks for it.
    GetDataMessage message = (GetDataMessage) outbound(writeTarget);
    assertEquals(message.getItems().get(0).hash, b2.getHash());
    assertFalse(resultFuture.isDone());
    // Peer receives it.
    inbound(writeTarget, b2);
    Block b = resultFuture.get();
    assertEquals(b, b2);
  }
  @Test
  public void testGetOpenTransactionOutputs() throws Exception {
    final int UNDOABLE_BLOCKS_STORED = 10;
    store = createStore(params, UNDOABLE_BLOCKS_STORED);
    chain = new FullPrunedBlockChain(params, store);

    // Check that we aren't accidentally leaving any references
    // to the full StoredUndoableBlock's lying around (ie memory leaks)
    ECKey outKey = new ECKey();
    int height = 1;

    // Build some blocks on genesis block to create a spendable output
    Block rollingBlock =
        params
            .getGenesisBlock()
            .createNextBlockWithCoinbase(Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
    chain.add(rollingBlock);
    Transaction transaction = rollingBlock.getTransactions().get(0);
    TransactionOutPoint spendableOutput = new TransactionOutPoint(params, 0, transaction.getHash());
    byte[] spendableOutputScriptPubKey = transaction.getOutputs().get(0).getScriptBytes();
    for (int i = 1; i < params.getSpendableCoinbaseDepth(); i++) {
      rollingBlock =
          rollingBlock.createNextBlockWithCoinbase(
              Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
      chain.add(rollingBlock);
    }
    rollingBlock = rollingBlock.createNextBlock(null);

    // Create bitcoin spend of 1 BTC.
    ECKey toKey = new ECKey();
    Coin amount = Coin.valueOf(100000000);
    Address address = new Address(params, toKey.getPubKeyHash());
    Coin totalAmount = Coin.ZERO;

    Transaction t = new Transaction(params);
    t.addOutput(new TransactionOutput(params, t, amount, toKey));
    t.addSignedInput(spendableOutput, new Script(spendableOutputScriptPubKey), outKey);
    rollingBlock.addTransaction(t);
    rollingBlock.solve();
    chain.add(rollingBlock);
    totalAmount = totalAmount.add(amount);

    List<UTXO> outputs = store.getOpenTransactionOutputs(Lists.newArrayList(address));
    assertNotNull(outputs);
    assertEquals("Wrong Number of Outputs", 1, outputs.size());
    UTXO output = outputs.get(0);
    assertEquals("The address is not equal", address.toString(), output.getAddress());
    assertEquals("The amount is not equal", totalAmount, output.getValue());

    outputs = null;
    output = null;
    try {
      store.close();
    } catch (Exception e) {
    }
  }
Beispiel #3
0
 @Test
 public void testUpdateLength() {
   NetworkParameters params = UnitTestParams.get();
   Block block =
       params
           .getGenesisBlock()
           .createNextBlockWithCoinbase(
               Block.BLOCK_VERSION_GENESIS, new ECKey().getPubKey(), Block.BLOCK_HEIGHT_GENESIS);
   assertEquals(block.bitcoinSerialize().length, block.length);
   final int origBlockLen = block.length;
   Transaction tx = new Transaction(params);
   // this is broken until the transaction has > 1 input + output (which is required anyway...)
   // assertTrue(tx.length == tx.bitcoinSerialize().length && tx.length == 8);
   byte[] outputScript = new byte[10];
   Arrays.fill(outputScript, (byte) ScriptOpCodes.OP_FALSE);
   tx.addOutput(new TransactionOutput(params, null, Coin.SATOSHI, outputScript));
   tx.addInput(
       new TransactionInput(
           params,
           null,
           new byte[] {(byte) ScriptOpCodes.OP_FALSE},
           new TransactionOutPoint(params, 0, Sha256Hash.of(new byte[] {1}))));
   int origTxLength = 8 + 2 + 8 + 1 + 10 + 40 + 1 + 1;
   assertEquals(tx.bitcoinSerialize().length, tx.length);
   assertEquals(origTxLength, tx.length);
   block.addTransaction(tx);
   assertEquals(block.bitcoinSerialize().length, block.length);
   assertEquals(origBlockLen + tx.length, block.length);
   block
       .getTransactions()
       .get(1)
       .getInputs()
       .get(0)
       .setScriptBytes(new byte[] {(byte) ScriptOpCodes.OP_FALSE, (byte) ScriptOpCodes.OP_FALSE});
   assertEquals(block.length, origBlockLen + tx.length);
   assertEquals(tx.length, origTxLength + 1);
   block.getTransactions().get(1).getInputs().get(0).setScriptBytes(new byte[] {});
   assertEquals(block.length, block.bitcoinSerialize().length);
   assertEquals(block.length, origBlockLen + tx.length);
   assertEquals(tx.length, origTxLength - 1);
   block
       .getTransactions()
       .get(1)
       .addInput(
           new TransactionInput(
               params,
               null,
               new byte[] {(byte) ScriptOpCodes.OP_FALSE},
               new TransactionOutPoint(params, 0, Sha256Hash.of(new byte[] {1}))));
   assertEquals(block.length, origBlockLen + tx.length);
   assertEquals(tx.length, origTxLength + 41); // - 1 + 40 + 1 + 1
 }
  @Test
  public void skipScripts() throws Exception {
    store = createStore(params, 10);
    chain = new FullPrunedBlockChain(params, store);

    // Check that we aren't accidentally leaving any references
    // to the full StoredUndoableBlock's lying around (ie memory leaks)

    ECKey outKey = new ECKey();
    int height = 1;

    // Build some blocks on genesis block to create a spendable output
    Block rollingBlock =
        params
            .getGenesisBlock()
            .createNextBlockWithCoinbase(Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
    chain.add(rollingBlock);
    TransactionOutput spendableOutput = rollingBlock.getTransactions().get(0).getOutput(0);
    for (int i = 1; i < params.getSpendableCoinbaseDepth(); i++) {
      rollingBlock =
          rollingBlock.createNextBlockWithCoinbase(
              Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
      chain.add(rollingBlock);
    }

    rollingBlock = rollingBlock.createNextBlock(null);
    Transaction t = new Transaction(params);
    t.addOutput(new TransactionOutput(params, t, FIFTY_COINS, new byte[] {}));
    TransactionInput input = t.addInput(spendableOutput);
    // Invalid script.
    input.clearScriptBytes();
    rollingBlock.addTransaction(t);
    rollingBlock.solve();
    chain.setRunScripts(false);
    try {
      chain.add(rollingBlock);
    } catch (VerificationException e) {
      fail();
    }
    try {
      store.close();
    } catch (Exception e) {
    }
  }
  @Test
  public void testUTXOProviderWithWallet() throws Exception {
    final int UNDOABLE_BLOCKS_STORED = 10;
    store = createStore(params, UNDOABLE_BLOCKS_STORED);
    chain = new FullPrunedBlockChain(params, store);

    // Check that we aren't accidentally leaving any references
    // to the full StoredUndoableBlock's lying around (ie memory leaks)
    ECKey outKey = new ECKey();
    int height = 1;

    // Build some blocks on genesis block to create a spendable output.
    Block rollingBlock =
        params
            .getGenesisBlock()
            .createNextBlockWithCoinbase(Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
    chain.add(rollingBlock);
    Transaction transaction = rollingBlock.getTransactions().get(0);
    TransactionOutPoint spendableOutput = new TransactionOutPoint(params, 0, transaction.getHash());
    byte[] spendableOutputScriptPubKey = transaction.getOutputs().get(0).getScriptBytes();
    for (int i = 1; i < params.getSpendableCoinbaseDepth(); i++) {
      rollingBlock =
          rollingBlock.createNextBlockWithCoinbase(
              Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
      chain.add(rollingBlock);
    }
    rollingBlock = rollingBlock.createNextBlock(null);

    // Create 1 BTC spend to a key in this wallet (to ourselves).
    Wallet wallet = new Wallet(params);
    assertEquals(
        "Available balance is incorrect",
        Coin.ZERO,
        wallet.getBalance(Wallet.BalanceType.AVAILABLE));
    assertEquals(
        "Estimated balance is incorrect",
        Coin.ZERO,
        wallet.getBalance(Wallet.BalanceType.ESTIMATED));

    wallet.setUTXOProvider(store);
    ECKey toKey = wallet.freshReceiveKey();
    Coin amount = Coin.valueOf(100000000);

    Transaction t = new Transaction(params);
    t.addOutput(new TransactionOutput(params, t, amount, toKey));
    t.addSignedInput(spendableOutput, new Script(spendableOutputScriptPubKey), outKey);
    rollingBlock.addTransaction(t);
    rollingBlock.solve();
    chain.add(rollingBlock);

    // Create another spend of 1/2 the value of BTC we have available using the wallet (store coin
    // selector).
    ECKey toKey2 = new ECKey();
    Coin amount2 = amount.divide(2);
    Address address2 = new Address(params, toKey2.getPubKeyHash());
    Wallet.SendRequest req = Wallet.SendRequest.to(address2, amount2);
    wallet.completeTx(req);
    wallet.commitTx(req.tx);
    Coin fee = req.fee;

    // There should be one pending tx (our spend).
    assertEquals(
        "Wrong number of PENDING.4", 1, wallet.getPoolSize(WalletTransaction.Pool.PENDING));
    Coin totalPendingTxAmount = Coin.ZERO;
    for (Transaction tx : wallet.getPendingTransactions()) {
      totalPendingTxAmount = totalPendingTxAmount.add(tx.getValueSentToMe(wallet));
    }

    // The availbale balance should be the 0 (as we spent the 1 BTC that's pending) and estimated
    // should be 1/2 - fee BTC
    assertEquals(
        "Available balance is incorrect",
        Coin.ZERO,
        wallet.getBalance(Wallet.BalanceType.AVAILABLE));
    assertEquals(
        "Estimated balance is incorrect",
        amount2.subtract(fee),
        wallet.getBalance(Wallet.BalanceType.ESTIMATED));
    assertEquals("Pending tx amount is incorrect", amount2.subtract(fee), totalPendingTxAmount);
    try {
      store.close();
    } catch (Exception e) {
    }
  }
  @Test
  public void testFinalizedBlocks() throws Exception {
    final int UNDOABLE_BLOCKS_STORED = 10;
    store = createStore(params, UNDOABLE_BLOCKS_STORED);
    chain = new FullPrunedBlockChain(params, store);

    // Check that we aren't accidentally leaving any references
    // to the full StoredUndoableBlock's lying around (ie memory leaks)

    ECKey outKey = new ECKey();
    int height = 1;

    // Build some blocks on genesis block to create a spendable output
    Block rollingBlock =
        params
            .getGenesisBlock()
            .createNextBlockWithCoinbase(Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
    chain.add(rollingBlock);
    TransactionOutPoint spendableOutput =
        new TransactionOutPoint(params, 0, rollingBlock.getTransactions().get(0).getHash());
    byte[] spendableOutputScriptPubKey =
        rollingBlock.getTransactions().get(0).getOutputs().get(0).getScriptBytes();
    for (int i = 1; i < params.getSpendableCoinbaseDepth(); i++) {
      rollingBlock =
          rollingBlock.createNextBlockWithCoinbase(
              Block.BLOCK_VERSION_GENESIS, outKey.getPubKey(), height++);
      chain.add(rollingBlock);
    }

    WeakReference<UTXO> out =
        new WeakReference<UTXO>(
            store.getTransactionOutput(spendableOutput.getHash(), spendableOutput.getIndex()));
    rollingBlock = rollingBlock.createNextBlock(null);

    Transaction t = new Transaction(params);
    // Entirely invalid scriptPubKey
    t.addOutput(new TransactionOutput(params, t, FIFTY_COINS, new byte[] {}));
    t.addSignedInput(spendableOutput, new Script(spendableOutputScriptPubKey), outKey);
    rollingBlock.addTransaction(t);
    rollingBlock.solve();

    chain.add(rollingBlock);
    WeakReference<StoredUndoableBlock> undoBlock =
        new WeakReference<StoredUndoableBlock>(store.getUndoBlock(rollingBlock.getHash()));

    StoredUndoableBlock storedUndoableBlock = undoBlock.get();
    assertNotNull(storedUndoableBlock);
    assertNull(storedUndoableBlock.getTransactions());
    WeakReference<TransactionOutputChanges> changes =
        new WeakReference<TransactionOutputChanges>(storedUndoableBlock.getTxOutChanges());
    assertNotNull(changes.get());
    storedUndoableBlock = null; // Blank the reference so it can be GCd.

    // Create a chain longer than UNDOABLE_BLOCKS_STORED
    for (int i = 0; i < UNDOABLE_BLOCKS_STORED; i++) {
      rollingBlock = rollingBlock.createNextBlock(null);
      chain.add(rollingBlock);
    }
    // Try to get the garbage collector to run
    System.gc();
    assertNull(undoBlock.get());
    assertNull(changes.get());
    assertNull(out.get());
    try {
      store.close();
    } catch (Exception e) {
    }
  }