public void addNewKeyToWallet() {
wallet.addKey(new ECKey());
backupKeys();
prefs.edit().putBoolean(Constants.PREFS_KEY_REMIND_BACKUP, true).commit();
}
private static Wallet readKeys(@Nonnull final InputStream is) throws IOException {
final BufferedReader in = new BufferedReader(new InputStreamReader(is, Constants.UTF_8));
final List<ECKey> keys = WalletUtils.readKeys(in);
in.close();
final Wallet wallet = new Wallet(Constants.NETWORK_PARAMETERS);
for (final ECKey key : keys) wallet.addKey(key);
return wallet;
}
public void setUp(BlockStore blockStore) throws Exception {
BriefLogFormatter.init();
unitTestParams = UnitTestParams.get();
Wallet.SendRequest.DEFAULT_FEE_PER_KB = BigInteger.ZERO;
this.blockStore = blockStore;
wallet = new Wallet(unitTestParams);
key = new ECKey();
address = key.toAddress(unitTestParams);
wallet.addKey(key);
blockChain = new BlockChain(unitTestParams, wallet, blockStore);
startPeerServers();
if (clientType == ClientType.NIO_CLIENT_MANAGER
|| clientType == ClientType.BLOCKING_CLIENT_MANAGER) {
channels.startAsync();
channels.awaitRunning();
}
socketAddress = new InetSocketAddress("127.0.0.1", 1111);
}
/**
* Loads wallet data from the given protocol buffer and inserts it into the given Wallet object.
* This is primarily useful when you wish to pre-register extension objects. Note that if loading
* fails the provided Wallet object may be in an indeterminate state and should be thrown away.
*
* @throws IOException if there is a problem reading the stream.
* @throws IllegalArgumentException if the wallet is corrupt.
*/
public void readWallet(Protos.Wallet walletProto, Wallet wallet) throws IOException {
// TODO: This method should throw more specific exception types than IllegalArgumentException.
// Read the scrypt parameters that specify how encryption and decryption is performed.
if (walletProto.hasEncryptionParameters()) {
Protos.ScryptParameters encryptionParameters = walletProto.getEncryptionParameters();
wallet.setKeyCrypter(new KeyCrypterScrypt(encryptionParameters));
}
if (walletProto.hasDescription()) {
wallet.setDescription(walletProto.getDescription());
}
// Read all keys
for (Protos.Key keyProto : walletProto.getKeyList()) {
if (!(keyProto.getType() == Protos.Key.Type.ORIGINAL
|| keyProto.getType() == Protos.Key.Type.ENCRYPTED_SCRYPT_AES)) {
throw new IllegalArgumentException(
"Unknown key type in wallet, type = " + keyProto.getType());
}
byte[] privKey = keyProto.hasPrivateKey() ? keyProto.getPrivateKey().toByteArray() : null;
EncryptedPrivateKey encryptedPrivateKey = null;
if (keyProto.hasEncryptedPrivateKey()) {
Protos.EncryptedPrivateKey encryptedPrivateKeyProto = keyProto.getEncryptedPrivateKey();
encryptedPrivateKey =
new EncryptedPrivateKey(
encryptedPrivateKeyProto.getInitialisationVector().toByteArray(),
encryptedPrivateKeyProto.getEncryptedPrivateKey().toByteArray());
}
byte[] pubKey = keyProto.hasPublicKey() ? keyProto.getPublicKey().toByteArray() : null;
ECKey ecKey;
final KeyCrypter keyCrypter = wallet.getKeyCrypter();
if (keyCrypter != null
&& keyCrypter.getUnderstoodEncryptionType() != EncryptionType.UNENCRYPTED) {
// If the key is encrypted construct an ECKey using the encrypted private key bytes.
ecKey = new ECKey(encryptedPrivateKey, pubKey, keyCrypter);
} else {
// Construct an unencrypted private key.
ecKey = new ECKey(privKey, pubKey);
}
ecKey.setCreationTimeSeconds((keyProto.getCreationTimestamp() + 500) / 1000);
wallet.addKey(ecKey);
}
// Read all transactions and insert into the txMap.
for (Protos.Transaction txProto : walletProto.getTransactionList()) {
readTransaction(txProto, wallet.getParams());
}
// Update transaction outputs to point to inputs that spend them
for (Protos.Transaction txProto : walletProto.getTransactionList()) {
WalletTransaction wtx = connectTransactionOutputs(txProto);
wallet.addWalletTransaction(wtx);
}
// Update the lastBlockSeenHash.
if (!walletProto.hasLastSeenBlockHash()) {
wallet.setLastBlockSeenHash(null);
} else {
wallet.setLastBlockSeenHash(byteStringToHash(walletProto.getLastSeenBlockHash()));
}
if (!walletProto.hasLastSeenBlockHeight()) {
wallet.setLastBlockSeenHeight(-1);
} else {
wallet.setLastBlockSeenHeight(walletProto.getLastSeenBlockHeight());
}
loadExtensions(wallet, walletProto);
if (walletProto.hasVersion()) {
wallet.setVersion(walletProto.getVersion());
}
// Make sure the object can be re-used to read another wallet without corruption.
txMap.clear();
}
@Test
public void testReplayManagerSyncSingleWallet() throws Exception {
// Get the system property runFunctionalTest to see if the functional
// tests need running.
String runFunctionalTests = System.getProperty(Constants.RUN_FUNCTIONAL_TESTS_PARAMETER);
if (Boolean.TRUE.toString().equalsIgnoreCase(runFunctionalTests)) {
// Date format is UTC with century, T time separator and Z for UTC
// timezone.
formatter = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'", Locale.ENGLISH);
formatter.setTimeZone(TimeZone.getTimeZone("UTC"));
// Initialise replay manager
ReplayManager replayManager = ReplayManager.INSTANCE;
assertNotNull(replayManager);
replayManager.initialise(controller, true);
String replayWalletPath =
multiBitDirectory.getAbsolutePath() + File.separator + "replay.wallet";
// Create a new wallet.
Wallet replayWallet = new Wallet(NetworkParameters.prodNet());
// Add in the replay key.
DumpedPrivateKey replayDumpedPrivateKey =
new DumpedPrivateKey(NetworkParameters.prodNet(), REPLAY1_PRIVATE_KEY);
ECKey replayKey = replayDumpedPrivateKey.getKey();
replayKey.setCreationTimeSeconds(formatter.parse(START_OF_REPLAY_PERIOD).getTime() / 1000);
log.debug("replayPrivateKey getCreationTimeSeconds = " + replayKey.getCreationTimeSeconds());
replayWallet.addKey(replayKey);
WalletData perWalletModelData = new WalletData();
perWalletModelData.setWalletInfo(
new WalletInfoData(replayWalletPath, replayWallet, MultiBitWalletVersion.PROTOBUF));
perWalletModelData.setWallet(replayWallet);
perWalletModelData.setWalletFilename(replayWalletPath);
perWalletModelData.setWalletDescription("testReplayManagerSyncSingleWallet test");
controller.getModel().getPerWalletModelDataList().add(perWalletModelData);
log.debug("Replay wallet before replay = \n" + replayWallet.toString());
assertEquals(BALANCE_AT_START, replayWallet.getBalance());
log.debug("Replaying blockchain");
// Create a ReplayTask to replay the replay wallet from the
// START_OF_REPLAY_PERIOD.
List<WalletData> perWalletModelDataList = new ArrayList<WalletData>();
perWalletModelDataList.add(perWalletModelData);
ReplayTask replayTask =
new ReplayTask(
perWalletModelDataList,
formatter.parse(START_OF_REPLAY_PERIOD),
ReplayTask.UNKNOWN_START_HEIGHT);
replayManager.offerReplayTask(replayTask);
// Run for a while.
log.debug("Twiddling thumbs for 60 seconds ...");
Thread.sleep(60000);
log.debug("... 60 seconds later.");
// Check the wallet - there should be some transactions in there.
if (replayWallet.getTransactions(true).size() > 0) {
// We are done.
} else {
// Run for a while longer.
log.debug("Twiddling thumbs for another 60 seconds ...");
Thread.sleep(60000);
log.debug("... 60 seconds later.");
if (replayWallet.getTransactions(true).size() > 0) {
// We are done.
} else {
if (simpleViewSystem.getNumberOfBlocksDownloaded() > 0) {
// Well it tried but probably got a slow connection -
// give it a pass.
} else {
fail("No blocks were downloaded on replay");
}
}
}
// Print out replay wallet after replay.
log.debug("Replay wallet after replay = \n" + replayWallet);
} else {
log.debug(
"Not running functional test: ReplayManagerTest#testReplayManagerSyncSingleWallet. Add '-DrunFunctionalTests=true' to run");
}
}
@Test
public void testReplayMiningTransaction() throws Exception {
// Get the system property runFunctionalTest to see if the functional tests need running.
String runFunctionalTests = System.getProperty(Constants.RUN_FUNCTIONAL_TESTS_PARAMETER);
if (Boolean.TRUE.toString().equalsIgnoreCase(runFunctionalTests)) {
// Date format is UTC with century, T time separator and Z for UTC timezone.
formatter = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'", Locale.ENGLISH);
formatter.setTimeZone(TimeZone.getTimeZone("UTC"));
File multiBitDirectory = createMultiBitRuntime();
// Set the application data directory to be the one we just created.
ApplicationDataDirectoryLocator applicationDataDirectoryLocator =
new ApplicationDataDirectoryLocator(multiBitDirectory);
log.debug("applicationDataDirectoryLocator = " + applicationDataDirectoryLocator);
// Create MultiBit controller.
final CreateControllers.Controllers controllers =
CreateControllers.createControllers(applicationDataDirectoryLocator);
log.debug("Creating Bitcoin service");
// Create the MultiBitService that connects to the bitcoin network.
MultiBitService multiBitService = new MultiBitService(controllers.bitcoinController);
log.debug("multiBitService = " + multiBitService);
controllers.bitcoinController.setMultiBitService(multiBitService);
// Add the simple view system (no Swing).
SimpleViewSystem simpleViewSystem = new SimpleViewSystem();
controllers.coreController.registerViewSystem(simpleViewSystem);
log.debug("simpleViewSystem = " + simpleViewSystem);
ReplayManager.INSTANCE.initialise(controllers.bitcoinController);
//
// MultiBit runtime is now setup and running.
//
String miningWalletPath =
multiBitDirectory.getAbsolutePath() + File.separator + "mining.wallet";
// Create a new wallet.
Wallet miningWallet = new Wallet(NetworkParameters.prodNet());
// Add in the mining key that has the coinbase transactions.
DumpedPrivateKey miningPrivateKey =
new DumpedPrivateKey(NetworkParameters.prodNet(), MINING_PRIVATE_KEY);
miningWallet.addKey(miningPrivateKey.getKey());
WalletData perWalletModelData = new WalletData();
perWalletModelData.setWalletInfo(
new WalletInfoData(miningWalletPath, MultiBitWalletVersion.PROTOBUF));
perWalletModelData.setWallet(miningWallet);
perWalletModelData.setWalletFilename(miningWalletPath);
perWalletModelData.setWalletDescription("testReplayMiningTransaction test");
// Save the new wallet.
controllers
.bitcoinController
.getFileHandler()
.savePerWalletModelData(perWalletModelData, true);
// Get the multibitService to load it up and hook it up to the blockchain.
controllers.bitcoinController.getMultiBitService().addWalletFromFilename(miningWalletPath);
controllers.bitcoinController.getModel().setActiveWalletByFilename(miningWalletPath);
log.debug("Mining wallet = \n" + miningWallet.toString());
assertEquals(BALANCE_AT_START, miningWallet.getBalance());
// Wait for a peer connection.
log.debug("Waiting for peer connection. . . ");
while (!simpleViewSystem.isOnline()) {
Thread.sleep(1000);
}
log.debug("Now online.");
log.debug("Replaying blockchain");
// multiBitService.replayBlockChain(formatter.parse(START_OF_REPLAY_PERIOD));
List<WalletData> perWalletModelDataList = new ArrayList<WalletData>();
perWalletModelDataList.add(
controllers.bitcoinController.getModel().getActivePerWalletModelData());
ReplayTask replayTask =
new ReplayTask(
perWalletModelDataList,
formatter.parse(START_OF_REPLAY_PERIOD),
ReplayTask.UNKNOWN_START_HEIGHT);
ReplayManager.INSTANCE.offerReplayTask(replayTask);
// Run for a minute.
log.debug("Twiddling thumbs for a minute ...");
Thread.sleep(60000);
log.debug("... one minute later.");
// Check new balance on wallet - estimated balance should be at least the
// expected (may have later tx too)..
log.debug(
"Mining wallet estimated balance is:\n"
+ controllers
.bitcoinController
.getModel()
.getActiveWallet()
.getBalance(BalanceType.ESTIMATED)
.toString());
log.debug(
"Mining wallet spendable balance is:\n"
+ controllers.bitcoinController.getModel().getActiveWallet().getBalance().toString());
log.debug(
"Mining wallet is:\n"
+ controllers.bitcoinController.getModel().getActiveWallet().toString());
assertTrue(
"Estimated balance of mining wallet is incorrect",
BALANCE_AFTER_REPLAY.compareTo(
controllers
.bitcoinController
.getModel()
.getActiveWallet()
.getBalance(BalanceType.ESTIMATED))
<= 0);
// assertTrue("Available balance of mining wallet is incorrect",
// BigInteger.ZERO.compareTo(controller.getModel().getActiveWallet().getBalance()) == 0);
// See if the first transaction is a coinbase.
miningWallet = controllers.bitcoinController.getModel().getActiveWallet();
Set<Transaction> transactions = miningWallet.getTransactions(true);
assertTrue("Transactions are missing", !(transactions == null || transactions.isEmpty()));
Transaction transaction = transactions.iterator().next();
assertNotNull("First transaction is null", transaction);
System.out.println("First transaction before roundtrip\n" + transaction);
assertTrue(
"The first transaction in the wallet is not a coinbase but it should be",
transaction.isCoinBase());
// Force save the wallet, reload it and check the transaction is still coinbase.
controllers
.bitcoinController
.getFileHandler()
.savePerWalletModelData(perWalletModelData, true);
WalletData rebornPerWalletModelData =
controllers.bitcoinController.getFileHandler().loadFromFile(new File(miningWalletPath));
assertNotNull("No reborn perWalletModelData", rebornPerWalletModelData);
;
assertNotNull("No reborn wallet", rebornPerWalletModelData.getWallet());
Wallet rebornMiningWallet = rebornPerWalletModelData.getWallet();
// See if the first transaction in the reborn wallet is a coinbase.
Set<Transaction> rebornTransactions = rebornMiningWallet.getTransactions(true);
assertTrue(
"No reborn transactions", !(rebornTransactions == null || rebornTransactions.isEmpty()));
Transaction rebornTransaction = rebornTransactions.iterator().next();
assertNotNull("No reborn first transaction", rebornTransaction);
System.out.println("First transaction after roundtrip\n" + rebornTransaction);
assertTrue(
"The first transaction in the wallet is not a coinbase but it should be",
rebornTransaction.isCoinBase());
// Tidy up.
multiBitService.getPeerGroup().stop();
controllers
.bitcoinController
.getFileHandler()
.deleteWalletAndWalletInfo(
controllers.bitcoinController.getModel().getActivePerWalletModelData());
} else {
log.debug(
"Not running functional test: MiningCoinBaseTransactionsSeenTest#testReplayMiningTransaction. Add '-DrunFunctionalTests=true' to run");
}
}
