@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)); }
@Test public void peerGroupWalletIntegration() throws Exception { // Make sure we can create spends, and that they are announced. Then do the same with offline // mode. // Set up connections and block chain. VersionMessage ver = new VersionMessage(params, 2); ver.localServices = VersionMessage.NODE_NETWORK; InboundMessageQueuer p1 = connectPeer(1, ver); InboundMessageQueuer p2 = connectPeer(2); // Send ourselves a bit of money. Block b1 = TestUtils.makeSolvedTestBlock(blockStore, address); inbound(p1, b1); pingAndWait(p1); assertNull(outbound(p1)); assertEquals(Utils.toNanoCoins(50, 0), wallet.getBalance()); // Check that the wallet informs us of changes in confidence as the transaction ripples across // the network. final Transaction[] transactions = new Transaction[1]; wallet.addEventListener( new AbstractWalletEventListener() { @Override public void onTransactionConfidenceChanged(Wallet wallet, Transaction tx) { transactions[0] = tx; } }); // Now create a spend, and expect the announcement on p1. Address dest = new ECKey().toAddress(params); Wallet.SendResult sendResult = wallet.sendCoins(peerGroup, dest, Utils.toNanoCoins(1, 0)); assertNotNull(sendResult.tx); Threading.waitForUserCode(); assertFalse(sendResult.broadcastComplete.isDone()); assertEquals(transactions[0], sendResult.tx); assertEquals(0, transactions[0].getConfidence().numBroadcastPeers()); transactions[0] = null; Transaction t1 = (Transaction) outbound(p1); assertNotNull(t1); // 49 BTC in change. assertEquals(Utils.toNanoCoins(49, 0), t1.getValueSentToMe(wallet)); // The future won't complete until it's heard back from the network on p2. InventoryMessage inv = new InventoryMessage(params); inv.addTransaction(t1); inbound(p2, inv); pingAndWait(p2); Threading.waitForUserCode(); assertTrue(sendResult.broadcastComplete.isDone()); assertEquals(transactions[0], sendResult.tx); assertEquals(1, transactions[0].getConfidence().numBroadcastPeers()); // Confirm it. Block b2 = TestUtils.createFakeBlock(blockStore, t1).block; inbound(p1, b2); pingAndWait(p1); assertNull(outbound(p1)); // Do the same thing with an offline transaction. peerGroup.removeWallet(wallet); Wallet.SendRequest req = Wallet.SendRequest.to(dest, Utils.toNanoCoins(2, 0)); req.ensureMinRequiredFee = false; Transaction t3 = checkNotNull(wallet.sendCoinsOffline(req)); assertNull(outbound(p1)); // Nothing sent. // Add the wallet to the peer group (simulate initialization). Transactions should be announced. peerGroup.addWallet(wallet); // Transaction announced to the first peer. assertEquals(t3.getHash(), ((Transaction) outbound(p1)).getHash()); }
private void connectWithVersion(int version) throws Exception { VersionMessage peerVersion = new VersionMessage(unitTestParams, OTHER_PEER_CHAIN_HEIGHT); peerVersion.clientVersion = version; peerVersion.localServices = VersionMessage.NODE_NETWORK; writeTarget = connect(peer, peerVersion); }