private static Block createGenesis(NetworkParameters n) { Block genesisBlock = new Block(n); Transaction t = new Transaction(n); try { // A script containing the difficulty bits and the following message: // // "The Times 03/Jan/2009 Chancellor on brink of second bailout for banks" byte[] bytes = Utils.HEX.decode( "04ffff001d0104455468652054696d65732030332f4a616e2f32303039204368616e63656c6c6f72206f6e206272696e6b206f66207365636f6e64206261696c6f757420666f722062616e6b73"); t.addInput(new TransactionInput(n, t, bytes)); ByteArrayOutputStream scriptPubKeyBytes = new ByteArrayOutputStream(); Script.writeBytes( scriptPubKeyBytes, Utils.HEX.decode( "04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f")); scriptPubKeyBytes.write(ScriptOpCodes.OP_CHECKSIG); t.addOutput(new TransactionOutput(n, t, FIFTY_COINS, scriptPubKeyBytes.toByteArray())); } catch (Exception e) { // Cannot happen. throw new RuntimeException(e); } genesisBlock.addTransaction(t); return genesisBlock; }
@Test public void testLastBlockSeenHash() throws Exception { // Test the lastBlockSeenHash field works. // LastBlockSeenHash should be empty if never set. Wallet wallet = new Wallet(params); Protos.Wallet walletProto = new WalletProtobufSerializer().walletToProto(wallet); ByteString lastSeenBlockHash = walletProto.getLastSeenBlockHash(); assertTrue(lastSeenBlockHash.isEmpty()); // Create a block. Block block = params.getDefaultSerializer().makeBlock(BlockTest.blockBytes); Sha256Hash blockHash = block.getHash(); wallet.setLastBlockSeenHash(blockHash); wallet.setLastBlockSeenHeight(1); // Roundtrip the wallet and check it has stored the blockHash. Wallet wallet1 = roundTrip(wallet); assertEquals(blockHash, wallet1.getLastBlockSeenHash()); assertEquals(1, wallet1.getLastBlockSeenHeight()); // Test the Satoshi genesis block (hash of all zeroes) is roundtripped ok. Block genesisBlock = MainNetParams.get().getGenesisBlock(); wallet.setLastBlockSeenHash(genesisBlock.getHash()); Wallet wallet2 = roundTrip(wallet); assertEquals(genesisBlock.getHash(), wallet2.getLastBlockSeenHash()); }
@Test public void coinbaseTxns() throws Exception { // Covers issue 420 where the outpoint index of a coinbase tx input was being mis-serialized. Block b = params .getGenesisBlock() .createNextBlockWithCoinbase( Block.BLOCK_VERSION_GENESIS, myKey.getPubKey(), FIFTY_COINS, Block.BLOCK_HEIGHT_GENESIS); Transaction coinbase = b.getTransactions().get(0); assertTrue(coinbase.isCoinBase()); BlockChain chain = new BlockChain(params, myWallet, new MemoryBlockStore(params)); assertTrue(chain.add(b)); // Wallet now has a coinbase tx in it. assertEquals(1, myWallet.getTransactions(true).size()); assertTrue(myWallet.getTransaction(coinbase.getHash()).isCoinBase()); Wallet wallet2 = roundTrip(myWallet); assertEquals(1, wallet2.getTransactions(true).size()); assertTrue(wallet2.getTransaction(coinbase.getHash()).isCoinBase()); }
@Test public void testAppearedAtChainHeightDepthAndWorkDone() throws Exception { // Test the TransactionConfidence appearedAtChainHeight, depth and workDone field are stored. BlockChain chain = new BlockChain(params, myWallet, new MemoryBlockStore(params)); final ArrayList<Transaction> txns = new ArrayList<Transaction>(2); myWallet.addEventListener( new AbstractWalletEventListener() { @Override public void onCoinsReceived( Wallet wallet, Transaction tx, Coin prevBalance, Coin newBalance) { txns.add(tx); } }); // Start by building two blocks on top of the genesis block. Block b1 = params.getGenesisBlock().createNextBlock(myAddress); BigInteger work1 = b1.getWork(); assertTrue(work1.signum() > 0); Block b2 = b1.createNextBlock(myAddress); BigInteger work2 = b2.getWork(); assertTrue(work2.signum() > 0); assertTrue(chain.add(b1)); assertTrue(chain.add(b2)); // We now have the following chain: // genesis -> b1 -> b2 // Check the transaction confidence levels are correct before wallet roundtrip. Threading.waitForUserCode(); assertEquals(2, txns.size()); TransactionConfidence confidence0 = txns.get(0).getConfidence(); TransactionConfidence confidence1 = txns.get(1).getConfidence(); assertEquals(1, confidence0.getAppearedAtChainHeight()); assertEquals(2, confidence1.getAppearedAtChainHeight()); assertEquals(2, confidence0.getDepthInBlocks()); assertEquals(1, confidence1.getDepthInBlocks()); // Roundtrip the wallet and check it has stored the depth and workDone. Wallet rebornWallet = roundTrip(myWallet); Set<Transaction> rebornTxns = rebornWallet.getTransactions(false); assertEquals(2, rebornTxns.size()); // The transactions are not guaranteed to be in the same order so sort them to be in chain // height order if required. Iterator<Transaction> it = rebornTxns.iterator(); Transaction txA = it.next(); Transaction txB = it.next(); Transaction rebornTx0, rebornTx1; if (txA.getConfidence().getAppearedAtChainHeight() == 1) { rebornTx0 = txA; rebornTx1 = txB; } else { rebornTx0 = txB; rebornTx1 = txA; } TransactionConfidence rebornConfidence0 = rebornTx0.getConfidence(); TransactionConfidence rebornConfidence1 = rebornTx1.getConfidence(); assertEquals(1, rebornConfidence0.getAppearedAtChainHeight()); assertEquals(2, rebornConfidence1.getAppearedAtChainHeight()); assertEquals(2, rebornConfidence0.getDepthInBlocks()); assertEquals(1, rebornConfidence1.getDepthInBlocks()); }