@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 invDownloadTxMultiPeer() throws Exception { // Check co-ordination of which peer to download via the memory pool. VersionMessage ver = new VersionMessage(unitTestParams, 100); InetSocketAddress address = new InetSocketAddress("127.0.0.1", 4242); Peer peer2 = new Peer(unitTestParams, ver, new PeerAddress(address), blockChain, memoryPool); peer2.addWallet(wallet); VersionMessage peerVersion = new VersionMessage(unitTestParams, OTHER_PEER_CHAIN_HEIGHT); peerVersion.clientVersion = 70001; peerVersion.localServices = VersionMessage.NODE_NETWORK; connect(); InboundMessageQueuer writeTarget2 = connect(peer2, peerVersion); // Make a tx and advertise it to one of the peers. BigInteger value = Utils.toNanoCoins(1, 0); Transaction tx = createFakeTx(unitTestParams, value, this.address); InventoryMessage inv = new InventoryMessage(unitTestParams); InventoryItem item = new InventoryItem(InventoryItem.Type.Transaction, tx.getHash()); inv.addItem(item); inbound(writeTarget, inv); // We got a getdata message. GetDataMessage message = (GetDataMessage) outbound(writeTarget); assertEquals(1, message.getItems().size()); assertEquals(tx.getHash(), message.getItems().get(0).hash); assertTrue(memoryPool.maybeWasSeen(tx.getHash())); // Advertising to peer2 results in no getdata message. inbound(writeTarget2, inv); pingAndWait(writeTarget2); assertNull(outbound(writeTarget2)); }
// Check that inventory message containing blocks we want is processed correctly. @Test public void newBlock() throws Exception { Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); final Block b2 = makeSolvedTestBlock(b1); // Receive notification of a new block. final InventoryMessage inv = new InventoryMessage(unitTestParams); InventoryItem item = new InventoryItem(InventoryItem.Type.Block, b2.getHash()); inv.addItem(item); final AtomicInteger newBlockMessagesReceived = new AtomicInteger(0); connect(); // Round-trip a ping so that we never see the response verack if we attach too quick pingAndWait(writeTarget); peer.addEventListener( new AbstractPeerEventListener() { @Override public synchronized Message onPreMessageReceived(Peer p, Message m) { if (p != peer) fail.set(true); if (m instanceof Pong) return m; int newValue = newBlockMessagesReceived.incrementAndGet(); if (newValue == 1 && !inv.equals(m)) fail.set(true); else if (newValue == 2 && !b2.equals(m)) fail.set(true); else if (newValue > 3) fail.set(true); return m; } @Override public synchronized void onBlocksDownloaded(Peer p, Block block, int blocksLeft) { int newValue = newBlockMessagesReceived.incrementAndGet(); if (newValue != 3 || p != peer || !block.equals(b2) || blocksLeft != OTHER_PEER_CHAIN_HEIGHT - 2) fail.set(true); } }, Threading.SAME_THREAD); long height = peer.getBestHeight(); inbound(writeTarget, inv); pingAndWait(writeTarget); assertEquals(height + 1, peer.getBestHeight()); // Response to the getdata message. inbound(writeTarget, b2); pingAndWait(writeTarget); Threading.waitForUserCode(); pingAndWait(writeTarget); assertEquals(3, newBlockMessagesReceived.get()); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); List<InventoryItem> items = getdata.getItems(); assertEquals(1, items.size()); assertEquals(b2.getHash(), items.get(0).hash); assertEquals(InventoryItem.Type.Block, items.get(0).type); }
public void timeLockedTransaction(boolean useNotFound) throws Exception { connectWithVersion(useNotFound ? 70001 : 60001); // Test that if we receive a relevant transaction that has a lock time, it doesn't result in a // notification // until we explicitly opt in to seeing those. ECKey key = new ECKey(); Wallet wallet = new Wallet(unitTestParams); wallet.addKey(key); peer.addWallet(wallet); final Transaction[] vtx = new Transaction[1]; wallet.addEventListener( new AbstractWalletEventListener() { @Override public void onCoinsReceived( Wallet wallet, Transaction tx, BigInteger prevBalance, BigInteger newBalance) { vtx[0] = tx; } }); // Send a normal relevant transaction, it's received correctly. Transaction t1 = TestUtils.createFakeTx(unitTestParams, Utils.toNanoCoins(1, 0), key); inbound(writeTarget, t1); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); if (useNotFound) { inbound(writeTarget, new NotFoundMessage(unitTestParams, getdata.getItems())); } else { bouncePing(); } pingAndWait(writeTarget); Threading.waitForUserCode(); assertNotNull(vtx[0]); vtx[0] = null; // Send a timelocked transaction, nothing happens. Transaction t2 = TestUtils.createFakeTx(unitTestParams, Utils.toNanoCoins(2, 0), key); t2.setLockTime(999999); inbound(writeTarget, t2); Threading.waitForUserCode(); assertNull(vtx[0]); // Now we want to hear about them. Send another, we are told about it. wallet.setAcceptRiskyTransactions(true); inbound(writeTarget, t2); getdata = (GetDataMessage) outbound(writeTarget); if (useNotFound) { inbound(writeTarget, new NotFoundMessage(unitTestParams, getdata.getItems())); } else { bouncePing(); } pingAndWait(writeTarget); Threading.waitForUserCode(); assertEquals(t2, vtx[0]); }
@Test public void fastCatchup() throws Exception { connect(); // Check that blocks before the fast catchup point are retrieved using getheaders, and after // using getblocks. // This test is INCOMPLETE because it does not check we handle >2000 blocks correctly. Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); Utils.rollMockClock(60 * 10); // 10 minutes later. Block b2 = makeSolvedTestBlock(b1); Utils.rollMockClock(60 * 10); // 10 minutes later. Block b3 = makeSolvedTestBlock(b2); Utils.rollMockClock(60 * 10); Block b4 = makeSolvedTestBlock(b3); // Request headers until the last 2 blocks. peer.setDownloadParameters((Utils.now().getTime() / 1000) - (600 * 2) + 1, false); peer.startBlockChainDownload(); GetHeadersMessage getheaders = (GetHeadersMessage) outbound(writeTarget); List<Sha256Hash> expectedLocator = new ArrayList<Sha256Hash>(); expectedLocator.add(b1.getHash()); expectedLocator.add(unitTestParams.getGenesisBlock().getHash()); assertEquals(getheaders.getLocator(), expectedLocator); assertEquals(getheaders.getStopHash(), Sha256Hash.ZERO_HASH); // Now send all the headers. HeadersMessage headers = new HeadersMessage( unitTestParams, b2.cloneAsHeader(), b3.cloneAsHeader(), b4.cloneAsHeader()); // We expect to be asked for b3 and b4 again, but this time, with a body. expectedLocator.clear(); expectedLocator.add(b2.getHash()); expectedLocator.add(b1.getHash()); expectedLocator.add(unitTestParams.getGenesisBlock().getHash()); inbound(writeTarget, headers); GetBlocksMessage getblocks = (GetBlocksMessage) outbound(writeTarget); assertEquals(expectedLocator, getblocks.getLocator()); assertEquals(Sha256Hash.ZERO_HASH, getblocks.getStopHash()); // We're supposed to get an inv here. InventoryMessage inv = new InventoryMessage(unitTestParams); inv.addItem(new InventoryItem(InventoryItem.Type.Block, b3.getHash())); inbound(writeTarget, inv); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); assertEquals(b3.getHash(), getdata.getItems().get(0).hash); // All done. inbound(writeTarget, b3); pingAndWait(writeTarget); closePeer(peer); }
@Test public void getBlock() throws Exception { connect(); Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); Block b2 = makeSolvedTestBlock(b1); Block b3 = makeSolvedTestBlock(b2); // Request the block. Future<Block> resultFuture = peer.getBlock(b3.getHash()); assertFalse(resultFuture.isDone()); // Peer asks for it. GetDataMessage message = (GetDataMessage) outbound(writeTarget); assertEquals(message.getItems().get(0).hash, b3.getHash()); assertFalse(resultFuture.isDone()); // Peer receives it. inbound(writeTarget, b3); Block b = resultFuture.get(); assertEquals(b, b3); }
@Test public void invDownloadTx() throws Exception { connect(); peer.setDownloadData(true); // Make a transaction and tell the peer we have it. BigInteger value = Utils.toNanoCoins(1, 0); Transaction tx = createFakeTx(unitTestParams, value, address); InventoryMessage inv = new InventoryMessage(unitTestParams); InventoryItem item = new InventoryItem(InventoryItem.Type.Transaction, tx.getHash()); inv.addItem(item); inbound(writeTarget, inv); // Peer hasn't seen it before, so will ask for it. GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); assertEquals(1, getdata.getItems().size()); assertEquals(tx.getHash(), getdata.getItems().get(0).hash); inbound(writeTarget, tx); // Ask for the dependency, it's not in the mempool (in chain). getdata = (GetDataMessage) outbound(writeTarget); inbound(writeTarget, new NotFoundMessage(unitTestParams, getdata.getItems())); pingAndWait(writeTarget); assertEquals(value, wallet.getBalance(Wallet.BalanceType.ESTIMATED)); }
private void checkTimeLockedDependency(boolean shouldAccept, boolean useNotFound) throws Exception { // Initial setup. connectWithVersion(useNotFound ? 70001 : 60001); ECKey key = new ECKey(); Wallet wallet = new Wallet(unitTestParams); wallet.addKey(key); wallet.setAcceptRiskyTransactions(shouldAccept); peer.addWallet(wallet); final Transaction[] vtx = new Transaction[1]; wallet.addEventListener( new AbstractWalletEventListener() { @Override public void onCoinsReceived( Wallet wallet, Transaction tx, BigInteger prevBalance, BigInteger newBalance) { vtx[0] = tx; } }); // t1 -> t2 [locked] -> t3 (not available) Transaction t2 = new Transaction(unitTestParams); t2.setLockTime(999999); // Add a fake input to t3 that goes nowhere. Sha256Hash t3 = Sha256Hash.create("abc".getBytes(Charset.forName("UTF-8"))); t2.addInput( new TransactionInput( unitTestParams, t2, new byte[] {}, new TransactionOutPoint(unitTestParams, 0, t3))); t2.getInput(0).setSequenceNumber(0xDEADBEEF); t2.addOutput(Utils.toNanoCoins(1, 0), new ECKey()); Transaction t1 = new Transaction(unitTestParams); t1.addInput(t2.getOutput(0)); t1.addOutput(Utils.toNanoCoins(1, 0), key); // Make it relevant. // Announce t1. InventoryMessage inv = new InventoryMessage(unitTestParams); inv.addTransaction(t1); inbound(writeTarget, inv); // Send it. GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); assertEquals(t1.getHash(), getdata.getItems().get(0).hash); inbound(writeTarget, t1); // Nothing arrived at our event listener yet. assertNull(vtx[0]); // We request t2. getdata = (GetDataMessage) outbound(writeTarget); assertEquals(t2.getHash(), getdata.getItems().get(0).hash); inbound(writeTarget, t2); if (!useNotFound) bouncePing(); // We request t3. getdata = (GetDataMessage) outbound(writeTarget); assertEquals(t3, getdata.getItems().get(0).hash); // Can't find it: bottom of tree. if (useNotFound) { NotFoundMessage notFound = new NotFoundMessage(unitTestParams); notFound.addItem(new InventoryItem(InventoryItem.Type.Transaction, t3)); inbound(writeTarget, notFound); } else { bouncePing(); } pingAndWait(writeTarget); Threading.waitForUserCode(); // We're done but still not notified because it was timelocked. if (shouldAccept) assertNotNull(vtx[0]); else assertNull(vtx[0]); }
public void recursiveDownload(boolean useNotFound) throws Exception { // Using ping or notfound? connectWithVersion(useNotFound ? 70001 : 60001); // Check that we can download all dependencies of an unconfirmed relevant transaction from the // mempool. ECKey to = new ECKey(); final Transaction[] onTx = new Transaction[1]; peer.addEventListener( new AbstractPeerEventListener() { @Override public void onTransaction(Peer peer1, Transaction t) { onTx[0] = t; } }, Threading.SAME_THREAD); // Make the some fake transactions in the following graph: // t1 -> t2 -> [t5] // -> t3 -> t4 -> [t6] // -> [t7] // -> [t8] // The ones in brackets are assumed to be in the chain and are represented only by hashes. Transaction t2 = TestUtils.createFakeTx(unitTestParams, Utils.toNanoCoins(1, 0), to); Sha256Hash t5 = t2.getInput(0).getOutpoint().getHash(); Transaction t4 = TestUtils.createFakeTx(unitTestParams, Utils.toNanoCoins(1, 0), new ECKey()); Sha256Hash t6 = t4.getInput(0).getOutpoint().getHash(); t4.addOutput(Utils.toNanoCoins(1, 0), new ECKey()); Transaction t3 = new Transaction(unitTestParams); t3.addInput(t4.getOutput(0)); t3.addOutput(Utils.toNanoCoins(1, 0), new ECKey()); Transaction t1 = new Transaction(unitTestParams); t1.addInput(t2.getOutput(0)); t1.addInput(t3.getOutput(0)); Sha256Hash someHash = new Sha256Hash("2b801dd82f01d17bbde881687bf72bc62e2faa8ab8133d36fcb8c3abe7459da6"); t1.addInput( new TransactionInput( unitTestParams, t1, new byte[] {}, new TransactionOutPoint(unitTestParams, 0, someHash))); Sha256Hash anotherHash = new Sha256Hash("3b801dd82f01d17bbde881687bf72bc62e2faa8ab8133d36fcb8c3abe7459da6"); t1.addInput( new TransactionInput( unitTestParams, t1, new byte[] {}, new TransactionOutPoint(unitTestParams, 1, anotherHash))); t1.addOutput(Utils.toNanoCoins(1, 0), to); t1 = TestUtils.roundTripTransaction(unitTestParams, t1); t2 = TestUtils.roundTripTransaction(unitTestParams, t2); t3 = TestUtils.roundTripTransaction(unitTestParams, t3); t4 = TestUtils.roundTripTransaction(unitTestParams, t4); // Announce the first one. Wait for it to be downloaded. InventoryMessage inv = new InventoryMessage(unitTestParams); inv.addTransaction(t1); inbound(writeTarget, inv); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); Threading.waitForUserCode(); assertEquals(t1.getHash(), getdata.getItems().get(0).hash); inbound(writeTarget, t1); pingAndWait(writeTarget); assertEquals(t1, onTx[0]); // We want its dependencies so ask for them. ListenableFuture<List<Transaction>> futures = peer.downloadDependencies(t1); assertFalse(futures.isDone()); // It will recursively ask for the dependencies of t1: t2, t3, someHash and anotherHash. getdata = (GetDataMessage) outbound(writeTarget); assertEquals(4, getdata.getItems().size()); assertEquals(t2.getHash(), getdata.getItems().get(0).hash); assertEquals(t3.getHash(), getdata.getItems().get(1).hash); assertEquals(someHash, getdata.getItems().get(2).hash); assertEquals(anotherHash, getdata.getItems().get(3).hash); long nonce = -1; if (!useNotFound) nonce = ((Ping) outbound(writeTarget)).getNonce(); // For some random reason, t4 is delivered at this point before it's needed - perhaps it was a // Bloom filter // false positive. We do this to check that the mempool is being checked for seen transactions // before // requesting them. inbound(writeTarget, t4); // Deliver the requested transactions. inbound(writeTarget, t2); inbound(writeTarget, t3); if (useNotFound) { NotFoundMessage notFound = new NotFoundMessage(unitTestParams); notFound.addItem(new InventoryItem(InventoryItem.Type.Transaction, someHash)); notFound.addItem(new InventoryItem(InventoryItem.Type.Transaction, anotherHash)); inbound(writeTarget, notFound); } else { inbound(writeTarget, new Pong(nonce)); } assertFalse(futures.isDone()); // It will recursively ask for the dependencies of t2: t5 and t4, but not t3 because it already // found t4. getdata = (GetDataMessage) outbound(writeTarget); assertEquals(getdata.getItems().get(0).hash, t2.getInput(0).getOutpoint().getHash()); // t5 isn't found and t4 is. if (useNotFound) { NotFoundMessage notFound = new NotFoundMessage(unitTestParams); notFound.addItem(new InventoryItem(InventoryItem.Type.Transaction, t5)); inbound(writeTarget, notFound); } else { bouncePing(); } assertFalse(futures.isDone()); // Continue to explore the t4 branch and ask for t6, which is in the chain. getdata = (GetDataMessage) outbound(writeTarget); assertEquals(t6, getdata.getItems().get(0).hash); if (useNotFound) { NotFoundMessage notFound = new NotFoundMessage(unitTestParams); notFound.addItem(new InventoryItem(InventoryItem.Type.Transaction, t6)); inbound(writeTarget, notFound); } else { bouncePing(); } pingAndWait(writeTarget); // That's it, we explored the entire tree. assertTrue(futures.isDone()); List<Transaction> results = futures.get(); assertTrue(results.contains(t2)); assertTrue(results.contains(t3)); assertTrue(results.contains(t4)); }
@Test public void chainDownloadEnd2End() throws Exception { // A full end-to-end test of the chain download process, with a new block being solved in the // middle. Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); Block b2 = makeSolvedTestBlock(b1); Block b3 = makeSolvedTestBlock(b2); Block b4 = makeSolvedTestBlock(b3); Block b5 = makeSolvedTestBlock(b4); connect(); peer.startBlockChainDownload(); GetBlocksMessage getblocks = (GetBlocksMessage) outbound(writeTarget); assertEquals(blockStore.getChainHead().getHeader().getHash(), getblocks.getLocator().get(0)); assertEquals(Sha256Hash.ZERO_HASH, getblocks.getStopHash()); // Remote peer sends us an inv with some blocks. InventoryMessage inv = new InventoryMessage(unitTestParams); inv.addBlock(b2); inv.addBlock(b3); // We do a getdata on them. inbound(writeTarget, inv); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); assertEquals(b2.getHash(), getdata.getItems().get(0).hash); assertEquals(b3.getHash(), getdata.getItems().get(1).hash); assertEquals(2, getdata.getItems().size()); // Remote peer sends us the blocks. The act of doing a getdata for b3 results in getting an inv // with just the // best chain head in it. inbound(writeTarget, b2); inbound(writeTarget, b3); inv = new InventoryMessage(unitTestParams); inv.addBlock(b5); // We request the head block. inbound(writeTarget, inv); getdata = (GetDataMessage) outbound(writeTarget); assertEquals(b5.getHash(), getdata.getItems().get(0).hash); assertEquals(1, getdata.getItems().size()); // Peer sends us the head block. The act of receiving the orphan block triggers a getblocks to // fill in the // rest of the chain. inbound(writeTarget, b5); getblocks = (GetBlocksMessage) outbound(writeTarget); assertEquals(b5.getHash(), getblocks.getStopHash()); assertEquals(b3.getHash(), getblocks.getLocator().get(0)); // At this point another block is solved and broadcast. The inv triggers a getdata but we do NOT // send another // getblocks afterwards, because that would result in us receiving the same set of blocks twice // which is a // timewaste. The getblocks message that would have been generated is set to be the same as the // previous // because we walk backwards down the orphan chain and then discover we already asked for those // blocks, so // nothing is done. Block b6 = makeSolvedTestBlock(b5); inv = new InventoryMessage(unitTestParams); inv.addBlock(b6); inbound(writeTarget, inv); getdata = (GetDataMessage) outbound(writeTarget); assertEquals(1, getdata.getItems().size()); assertEquals(b6.getHash(), getdata.getItems().get(0).hash); inbound(writeTarget, b6); assertNull(outbound(writeTarget)); // Nothing is sent at this point. // We're still waiting for the response to the getblocks (b3,b5) sent above. inv = new InventoryMessage(unitTestParams); inv.addBlock(b4); inv.addBlock(b5); inbound(writeTarget, inv); getdata = (GetDataMessage) outbound(writeTarget); assertEquals(1, getdata.getItems().size()); assertEquals(b4.getHash(), getdata.getItems().get(0).hash); // We already have b5 from before, so it's not requested again. inbound(writeTarget, b4); assertNull(outbound(writeTarget)); // b5 and b6 are now connected by the block chain and we're done. assertNull(outbound(writeTarget)); closePeer(peer); }