@Test public void testCreateMultiSigInputScript() throws AddressFormatException { // Setup transaction and signatures ECKey key1 = new DumpedPrivateKey(params, "cVLwRLTvz3BxDAWkvS3yzT9pUcTCup7kQnfT2smRjvmmm1wAP6QT") .getKey(); ECKey key2 = new DumpedPrivateKey(params, "cTine92s8GLpVqvebi8rYce3FrUYq78ZGQffBYCS1HmDPJdSTxUo") .getKey(); ECKey key3 = new DumpedPrivateKey(params, "cVHwXSPRZmL9adctwBwmn4oTZdZMbaCsR5XF6VznqMgcvt1FDDxg") .getKey(); Script multisigScript = ScriptBuilder.createMultiSigOutputScript(2, Arrays.asList(key1, key2, key3)); byte[] bytes = Hex.decode( "01000000013df681ff83b43b6585fa32dd0e12b0b502e6481e04ee52ff0fdaf55a16a4ef61000000006b483045022100a84acca7906c13c5895a1314c165d33621cdcf8696145080895cbf301119b7cf0220730ff511106aa0e0a8570ff00ee57d7a6f24e30f592a10cae1deffac9e13b990012102b8d567bcd6328fd48a429f9cf4b315b859a58fd28c5088ef3cb1d98125fc4e8dffffffff02364f1c00000000001976a91439a02793b418de8ec748dd75382656453dc99bcb88ac40420f000000000017a9145780b80be32e117f675d6e0ada13ba799bf248e98700000000"); Transaction transaction = new Transaction(params, bytes); TransactionOutput output = transaction.getOutput(1); Transaction spendTx = new Transaction(params); Address address = new Address(params, "n3CFiCmBXVt5d3HXKQ15EFZyhPz4yj5F3H"); Script outputScript = ScriptBuilder.createOutputScript(address); spendTx.addOutput(output.getValue(), outputScript); spendTx.addInput(output); Sha256Hash sighash = spendTx.hashForSignature(0, multisigScript, SigHash.ALL, false); ECKey.ECDSASignature party1Signature = key1.sign(sighash); ECKey.ECDSASignature party2Signature = key2.sign(sighash); TransactionSignature party1TransactionSignature = new TransactionSignature(party1Signature, SigHash.ALL, false); TransactionSignature party2TransactionSignature = new TransactionSignature(party2Signature, SigHash.ALL, false); // Create p2sh multisig input script Script inputScript = ScriptBuilder.createP2SHMultiSigInputScript( ImmutableList.of(party1TransactionSignature, party2TransactionSignature), multisigScript.getProgram()); // Assert that the input script contains 4 chunks assertTrue(inputScript.getChunks().size() == 4); // Assert that the input script created contains the original multisig // script as the last chunk ScriptChunk scriptChunk = inputScript.getChunks().get(inputScript.getChunks().size() - 1); Assert.assertArrayEquals(scriptChunk.data, multisigScript.getProgram()); // Create regular multisig input script inputScript = ScriptBuilder.createMultiSigInputScript( ImmutableList.of(party1TransactionSignature, party2TransactionSignature)); // Assert that the input script only contains 3 chunks assertTrue(inputScript.getChunks().size() == 3); // Assert that the input script created does not end with the original // multisig script scriptChunk = inputScript.getChunks().get(inputScript.getChunks().size() - 1); Assert.assertThat(scriptChunk.data, IsNot.not(IsEqual.equalTo(multisigScript.getProgram()))); }
@Override /** Used during reorgs to connect a block previously on a fork */ protected synchronized TransactionOutputChanges connectTransactions(StoredBlock newBlock) throws VerificationException, BlockStoreException, PrunedException { checkState(lock.isHeldByCurrentThread()); if (!params.passesCheckpoint(newBlock.getHeight(), newBlock.getHeader().getHash())) throw new VerificationException("Block failed checkpoint lockin at " + newBlock.getHeight()); blockStore.beginDatabaseBatchWrite(); StoredUndoableBlock block = blockStore.getUndoBlock(newBlock.getHeader().getHash()); if (block == null) { // We're trying to re-org too deep and the data needed has been deleted. blockStore.abortDatabaseBatchWrite(); throw new PrunedException(newBlock.getHeader().getHash()); } TransactionOutputChanges txOutChanges; try { List<Transaction> transactions = block.getTransactions(); if (transactions != null) { LinkedList<StoredTransactionOutput> txOutsSpent = new LinkedList<StoredTransactionOutput>(); LinkedList<StoredTransactionOutput> txOutsCreated = new LinkedList<StoredTransactionOutput>(); long sigOps = 0; final boolean enforcePayToScriptHash = newBlock.getHeader().getTimeSeconds() >= NetworkParameters.BIP16_ENFORCE_TIME; if (!params.isCheckpoint(newBlock.getHeight())) { for (Transaction tx : transactions) { Sha256Hash hash = tx.getHash(); if (blockStore.hasUnspentOutputs(hash, tx.getOutputs().size())) throw new VerificationException("Block failed BIP30 test!"); } } Coin totalFees = Coin.ZERO; Coin coinbaseValue = null; if (scriptVerificationExecutor.isShutdown()) scriptVerificationExecutor = Executors.newFixedThreadPool(Runtime.getRuntime().availableProcessors()); List<Future<VerificationException>> listScriptVerificationResults = new ArrayList<Future<VerificationException>>(transactions.size()); for (final Transaction tx : transactions) { boolean isCoinBase = tx.isCoinBase(); Coin valueIn = Coin.ZERO; Coin valueOut = Coin.ZERO; final List<Script> prevOutScripts = new LinkedList<Script>(); if (!isCoinBase) { for (int index = 0; index < tx.getInputs().size(); index++) { final TransactionInput in = tx.getInputs().get(index); final StoredTransactionOutput prevOut = blockStore.getTransactionOutput( in.getOutpoint().getHash(), in.getOutpoint().getIndex()); if (prevOut == null) throw new VerificationException( "Attempted spend of a non-existent or already spent output!"); if (newBlock.getHeight() - prevOut.getHeight() < params.getSpendableCoinbaseDepth()) throw new VerificationException( "Tried to spend coinbase at depth " + (newBlock.getHeight() - prevOut.getHeight())); valueIn = valueIn.add(prevOut.getValue()); if (enforcePayToScriptHash) { Script script = new Script(prevOut.getScriptBytes()); if (script.isPayToScriptHash()) sigOps += Script.getP2SHSigOpCount(in.getScriptBytes()); if (sigOps > Block.MAX_BLOCK_SIGOPS) throw new VerificationException("Too many P2SH SigOps in block"); } prevOutScripts.add(new Script(prevOut.getScriptBytes())); blockStore.removeUnspentTransactionOutput(prevOut); txOutsSpent.add(prevOut); } } Sha256Hash hash = tx.getHash(); for (TransactionOutput out : tx.getOutputs()) { valueOut = valueOut.add(out.getValue()); StoredTransactionOutput newOut = new StoredTransactionOutput( hash, out.getIndex(), out.getValue(), newBlock.getHeight(), isCoinBase, out.getScriptBytes()); blockStore.addUnspentTransactionOutput(newOut); txOutsCreated.add(newOut); } // All values were already checked for being non-negative (as it is verified in // Transaction.verify()) // but we check again here just for defence in depth. Transactions with zero output value // are OK. if (valueOut.signum() < 0 || valueOut.compareTo(NetworkParameters.MAX_MONEY) > 0) throw new VerificationException("Transaction output value out of range"); if (isCoinBase) { coinbaseValue = valueOut; } else { if (valueIn.compareTo(valueOut) < 0 || valueIn.compareTo(NetworkParameters.MAX_MONEY) > 0) throw new VerificationException("Transaction input value out of range"); totalFees = totalFees.add(valueIn.subtract(valueOut)); } if (!isCoinBase) { // Because correctlySpends modifies transactions, this must come after we are done with // tx FutureTask<VerificationException> future = new FutureTask<VerificationException>( new Verifier(tx, prevOutScripts, enforcePayToScriptHash)); scriptVerificationExecutor.execute(future); listScriptVerificationResults.add(future); } } if (totalFees.compareTo(NetworkParameters.MAX_MONEY) > 0 || newBlock .getHeader() .getBlockInflation(newBlock.getHeight()) .add(totalFees) .compareTo(coinbaseValue) < 0) throw new VerificationException("Transaction fees out of range"); txOutChanges = new TransactionOutputChanges(txOutsCreated, txOutsSpent); for (Future<VerificationException> future : listScriptVerificationResults) { VerificationException e; try { e = future.get(); } catch (InterruptedException thrownE) { throw new RuntimeException(thrownE); // Shouldn't happen } catch (ExecutionException thrownE) { log.error("Script.correctlySpends threw a non-normal exception: " + thrownE.getCause()); throw new VerificationException( "Bug in Script.correctlySpends, likely script malformed in some new and interesting way.", thrownE); } if (e != null) throw e; } } else { txOutChanges = block.getTxOutChanges(); if (!params.isCheckpoint(newBlock.getHeight())) for (StoredTransactionOutput out : txOutChanges.txOutsCreated) { Sha256Hash hash = out.getHash(); if (blockStore.getTransactionOutput(hash, out.getIndex()) != null) throw new VerificationException("Block failed BIP30 test!"); } for (StoredTransactionOutput out : txOutChanges.txOutsCreated) blockStore.addUnspentTransactionOutput(out); for (StoredTransactionOutput out : txOutChanges.txOutsSpent) blockStore.removeUnspentTransactionOutput(out); } } catch (VerificationException e) { scriptVerificationExecutor.shutdownNow(); blockStore.abortDatabaseBatchWrite(); throw e; } catch (BlockStoreException e) { scriptVerificationExecutor.shutdownNow(); blockStore.abortDatabaseBatchWrite(); throw e; } return txOutChanges; }
@Override protected TransactionOutputChanges connectTransactions(int height, Block block) throws VerificationException, BlockStoreException { checkState(lock.isHeldByCurrentThread()); if (block.transactions == null) throw new RuntimeException( "connectTransactions called with Block that didn't have transactions!"); if (!params.passesCheckpoint(height, block.getHash())) throw new VerificationException("Block failed checkpoint lockin at " + height); blockStore.beginDatabaseBatchWrite(); LinkedList<StoredTransactionOutput> txOutsSpent = new LinkedList<StoredTransactionOutput>(); LinkedList<StoredTransactionOutput> txOutsCreated = new LinkedList<StoredTransactionOutput>(); long sigOps = 0; final boolean enforcePayToScriptHash = block.getTimeSeconds() >= NetworkParameters.BIP16_ENFORCE_TIME; if (scriptVerificationExecutor.isShutdown()) scriptVerificationExecutor = Executors.newFixedThreadPool(Runtime.getRuntime().availableProcessors()); List<Future<VerificationException>> listScriptVerificationResults = new ArrayList<Future<VerificationException>>(block.transactions.size()); try { if (!params.isCheckpoint(height)) { // BIP30 violator blocks are ones that contain a duplicated transaction. They are all in the // checkpoints list and we therefore only check non-checkpoints for duplicated transactions // here. See the // BIP30 document for more details on this: // https://github.com/bitcoin/bips/blob/master/bip-0030.mediawiki for (Transaction tx : block.transactions) { Sha256Hash hash = tx.getHash(); // If we already have unspent outputs for this hash, we saw the tx already. Either the // block is // being added twice (bug) or the block is a BIP30 violator. if (blockStore.hasUnspentOutputs(hash, tx.getOutputs().size())) throw new VerificationException("Block failed BIP30 test!"); if (enforcePayToScriptHash) // We already check non-BIP16 sigops in // Block.verifyTransactions(true) sigOps += tx.getSigOpCount(); } } Coin totalFees = Coin.ZERO; Coin coinbaseValue = null; for (final Transaction tx : block.transactions) { boolean isCoinBase = tx.isCoinBase(); Coin valueIn = Coin.ZERO; Coin valueOut = Coin.ZERO; final List<Script> prevOutScripts = new LinkedList<Script>(); if (!isCoinBase) { // For each input of the transaction remove the corresponding output from the set of // unspent // outputs. for (int index = 0; index < tx.getInputs().size(); index++) { TransactionInput in = tx.getInputs().get(index); StoredTransactionOutput prevOut = blockStore.getTransactionOutput( in.getOutpoint().getHash(), in.getOutpoint().getIndex()); if (prevOut == null) throw new VerificationException( "Attempted to spend a non-existent or already spent output!"); // Coinbases can't be spent until they mature, to avoid re-orgs destroying entire // transaction // chains. The assumption is there will ~never be re-orgs deeper than the spendable // coinbase // chain depth. if (height - prevOut.getHeight() < params.getSpendableCoinbaseDepth()) throw new VerificationException( "Tried to spend coinbase at depth " + (height - prevOut.getHeight())); // TODO: Check we're not spending the genesis transaction here. Satoshis code won't // allow it. valueIn = valueIn.add(prevOut.getValue()); if (enforcePayToScriptHash) { if (new Script(prevOut.getScriptBytes()).isPayToScriptHash()) sigOps += Script.getP2SHSigOpCount(in.getScriptBytes()); if (sigOps > Block.MAX_BLOCK_SIGOPS) throw new VerificationException("Too many P2SH SigOps in block"); } prevOutScripts.add(new Script(prevOut.getScriptBytes())); // in.getScriptSig().correctlySpends(tx, index, new Script(params, // prevOut.getScriptBytes(), 0, prevOut.getScriptBytes().length)); blockStore.removeUnspentTransactionOutput(prevOut); txOutsSpent.add(prevOut); } } Sha256Hash hash = tx.getHash(); for (TransactionOutput out : tx.getOutputs()) { valueOut = valueOut.add(out.getValue()); // For each output, add it to the set of unspent outputs so it can be consumed in future. StoredTransactionOutput newOut = new StoredTransactionOutput( hash, out.getIndex(), out.getValue(), height, isCoinBase, out.getScriptBytes()); blockStore.addUnspentTransactionOutput(newOut); txOutsCreated.add(newOut); } // All values were already checked for being non-negative (as it is verified in // Transaction.verify()) // but we check again here just for defence in depth. Transactions with zero output value // are OK. if (valueOut.signum() < 0 || valueOut.compareTo(NetworkParameters.MAX_MONEY) > 0) throw new VerificationException("Transaction output value out of range"); if (isCoinBase) { coinbaseValue = valueOut; } else { if (valueIn.compareTo(valueOut) < 0 || valueIn.compareTo(NetworkParameters.MAX_MONEY) > 0) throw new VerificationException("Transaction input value out of range"); totalFees = totalFees.add(valueIn.subtract(valueOut)); } if (!isCoinBase && runScripts) { // Because correctlySpends modifies transactions, this must come after we are done with tx FutureTask<VerificationException> future = new FutureTask<VerificationException>( new Verifier(tx, prevOutScripts, enforcePayToScriptHash)); scriptVerificationExecutor.execute(future); listScriptVerificationResults.add(future); } } if (totalFees.compareTo(NetworkParameters.MAX_MONEY) > 0 || block.getBlockInflation(height).add(totalFees).compareTo(coinbaseValue) < 0) throw new VerificationException("Transaction fees out of range"); for (Future<VerificationException> future : listScriptVerificationResults) { VerificationException e; try { e = future.get(); } catch (InterruptedException thrownE) { throw new RuntimeException(thrownE); // Shouldn't happen } catch (ExecutionException thrownE) { log.error("Script.correctlySpends threw a non-normal exception: " + thrownE.getCause()); throw new VerificationException( "Bug in Script.correctlySpends, likely script malformed in some new and interesting way.", thrownE); } if (e != null) throw e; } } catch (VerificationException e) { scriptVerificationExecutor.shutdownNow(); blockStore.abortDatabaseBatchWrite(); throw e; } catch (BlockStoreException e) { scriptVerificationExecutor.shutdownNow(); blockStore.abortDatabaseBatchWrite(); throw e; } return new TransactionOutputChanges(txOutsCreated, txOutsSpent); }
private static Protos.Transaction makeTxProto(WalletTransaction wtx) { Transaction tx = wtx.getTransaction(); Protos.Transaction.Builder txBuilder = Protos.Transaction.newBuilder(); txBuilder .setPool(Protos.Transaction.Pool.valueOf(wtx.getPool().getValue())) .setHash(hashToByteString(tx.getHash())) .setVersion((int) tx.getVersion()); if (tx.getUpdateTime() != null) { txBuilder.setUpdatedAt(tx.getUpdateTime().getTime()); } if (tx.getLockTime() > 0) { txBuilder.setLockTime((int) tx.getLockTime()); } // Handle inputs. for (TransactionInput input : tx.getInputs()) { Protos.TransactionInput.Builder inputBuilder = Protos.TransactionInput.newBuilder() .setScriptBytes(ByteString.copyFrom(input.getScriptBytes())) .setTransactionOutPointHash(hashToByteString(input.getOutpoint().getHash())) .setTransactionOutPointIndex((int) input.getOutpoint().getIndex()); if (input.hasSequence()) { inputBuilder.setSequence((int) input.getSequenceNumber()); } txBuilder.addTransactionInput(inputBuilder); } // Handle outputs. for (TransactionOutput output : tx.getOutputs()) { Protos.TransactionOutput.Builder outputBuilder = Protos.TransactionOutput.newBuilder() .setScriptBytes(ByteString.copyFrom(output.getScriptBytes())) .setValue(output.getValue().longValue()); final TransactionInput spentBy = output.getSpentBy(); if (spentBy != null) { Sha256Hash spendingHash = spentBy.getParentTransaction().getHash(); int spentByTransactionIndex = spentBy.getParentTransaction().getInputs().indexOf(spentBy); outputBuilder .setSpentByTransactionHash(hashToByteString(spendingHash)) .setSpentByTransactionIndex(spentByTransactionIndex); } txBuilder.addTransactionOutput(outputBuilder); } // Handle which blocks tx was seen in. if (tx.getAppearsInHashes() != null) { for (Sha256Hash hash : tx.getAppearsInHashes()) { txBuilder.addBlockHash(hashToByteString(hash)); } } if (tx.hasConfidence()) { TransactionConfidence confidence = tx.getConfidence(); Protos.TransactionConfidence.Builder confidenceBuilder = Protos.TransactionConfidence.newBuilder(); writeConfidence(txBuilder, confidence, confidenceBuilder); } return txBuilder.build(); }