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/*
 * Copyright 2013 Google Inc.
 * Copyright 2014 Andreas Schildbach
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *    http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.bitcoinj.kits;

import com.google.common.collect.*;
import com.google.common.util.concurrent.*;
import org.bitcoinj.core.listeners.*;
import org.bitcoinj.core.*;
import org.bitcoinj.net.discovery.*;
import org.bitcoinj.protocols.channels.*;
import org.bitcoinj.store.*;
import org.bitcoinj.wallet.*;
import org.slf4j.*;

import javax.annotation.*;
import java.io.*;
import java.net.*;
import java.nio.channels.*;
import java.util.*;
import java.util.concurrent.*;

import static com.google.common.base.Preconditions.*;

/**
 * 

Utility class that wraps the boilerplate needed to set up a new SPV bitcoinj app. Instantiate it with a directory * and file prefix, optionally configure a few things, then use startAsync and optionally awaitRunning. The object will * construct and configure a {@link BlockChain}, {@link SPVBlockStore}, {@link Wallet} and {@link PeerGroup}. Depending * on the value of the blockingStartup property, startup will be considered complete once the block chain has fully * synchronized, so it can take a while.

* *

To add listeners and modify the objects that are constructed, you can either do that by overriding the * {@link #onSetupCompleted()} method (which will run on a background thread) and make your changes there, * or by waiting for the service to start and then accessing the objects from wherever you want. However, you cannot * access the objects this class creates until startup is complete.

* *

The asynchronous design of this class may seem puzzling (just use {@link #awaitRunning()} if you don't want that). * It is to make it easier to fit bitcoinj into GUI apps, which require a high degree of responsiveness on their main * thread which handles all the animation and user interaction. Even when blockingStart is false, initializing bitcoinj * means doing potentially blocking file IO, generating keys and other potentially intensive operations. By running it * on a background thread, there's no risk of accidentally causing UI lag.

* *

Note that {@link #awaitRunning()} can throw an unchecked {@link java.lang.IllegalStateException} * if anything goes wrong during startup - you should probably handle it and use {@link Exception#getCause()} to figure * out what went wrong more precisely. Same thing if you just use the {@link #startAsync()} method.

*/ public class WalletAppKit extends AbstractIdleService { protected static final Logger log = LoggerFactory.getLogger(WalletAppKit.class); protected final String filePrefix; protected final NetworkParameters params; protected volatile BlockChain vChain; protected volatile BlockStore vStore; protected volatile Wallet vWallet; protected volatile PeerGroup vPeerGroup; protected final File directory; protected volatile File vWalletFile; protected boolean useAutoSave = true; protected PeerAddress[] peerAddresses; protected DownloadProgressTracker downloadListener; protected boolean autoStop = true; protected InputStream checkpoints; protected boolean blockingStartup = true; protected String userAgent, version; protected WalletProtobufSerializer.WalletFactory walletFactory; @Nullable protected DeterministicSeed restoreFromSeed; @Nullable protected PeerDiscovery discovery; protected volatile Context context; /** * Creates a new WalletAppKit, with a newly created {@link Context}. Files will be stored in the given directory. */ public WalletAppKit(NetworkParameters params, File directory, String filePrefix) { this(new Context(params), directory, filePrefix); } /** * Creates a new WalletAppKit, with the given {@link Context}. Files will be stored in the given directory. */ public WalletAppKit(Context context, File directory, String filePrefix) { this.context = context; this.params = checkNotNull(context.getParams()); this.directory = checkNotNull(directory); this.filePrefix = checkNotNull(filePrefix); } /** Will only connect to the given addresses. Cannot be called after startup. */ public WalletAppKit setPeerNodes(PeerAddress... addresses) { checkState(state() == State.NEW, "Cannot call after startup"); this.peerAddresses = addresses; return this; } /** Will only connect to localhost. Cannot be called after startup. */ public WalletAppKit connectToLocalHost() { try { final InetAddress localHost = InetAddress.getLocalHost(); return setPeerNodes(new PeerAddress(params, localHost, params.getPort())); } catch (UnknownHostException e) { // Borked machine with no loopback adapter configured properly. throw new RuntimeException(e); } } /** If true, the wallet will save itself to disk automatically whenever it changes. */ public WalletAppKit setAutoSave(boolean value) { checkState(state() == State.NEW, "Cannot call after startup"); useAutoSave = value; return this; } /** * If you want to learn about the sync process, you can provide a listener here. For instance, a * {@link DownloadProgressTracker} is a good choice. This has no effect unless setBlockingStartup(false) has been called * too, due to some missing implementation code. */ public WalletAppKit setDownloadListener(DownloadProgressTracker listener) { this.downloadListener = listener; return this; } /** If true, will register a shutdown hook to stop the library. Defaults to true. */ public WalletAppKit setAutoStop(boolean autoStop) { this.autoStop = autoStop; return this; } /** * If set, the file is expected to contain a checkpoints file calculated with BuildCheckpoints. It makes initial * block sync faster for new users - please refer to the documentation on the bitcoinj website * (https://bitcoinj.github.io/speeding-up-chain-sync) for further details. */ public WalletAppKit setCheckpoints(InputStream checkpoints) { if (this.checkpoints != null) Utils.closeUnchecked(this.checkpoints); this.checkpoints = checkNotNull(checkpoints); return this; } /** * If true (the default) then the startup of this service won't be considered complete until the network has been * brought up, peer connections established and the block chain synchronised. Therefore {@link #awaitRunning()} can * potentially take a very long time. If false, then startup is considered complete once the network activity * begins and peer connections/block chain sync will continue in the background. */ public WalletAppKit setBlockingStartup(boolean blockingStartup) { this.blockingStartup = blockingStartup; return this; } /** * Sets the string that will appear in the subver field of the version message. * @param userAgent A short string that should be the name of your app, e.g. "My Wallet" * @param version A short string that contains the version number, e.g. "1.0-BETA" */ public WalletAppKit setUserAgent(String userAgent, String version) { this.userAgent = checkNotNull(userAgent); this.version = checkNotNull(version); return this; } /** * Sets a wallet factory which will be used when the kit creates a new wallet. */ public WalletAppKit setWalletFactory(WalletProtobufSerializer.WalletFactory walletFactory) { this.walletFactory = walletFactory; return this; } /** * If a seed is set here then any existing wallet that matches the file name will be renamed to a backup name, * the chain file will be deleted, and the wallet object will be instantiated with the given seed instead of * a fresh one being created. This is intended for restoring a wallet from the original seed. To implement restore * you would shut down the existing appkit, if any, then recreate it with the seed given by the user, then start * up the new kit. The next time your app starts it should work as normal (that is, don't keep calling this each * time). */ public WalletAppKit restoreWalletFromSeed(DeterministicSeed seed) { this.restoreFromSeed = seed; return this; } /** * Sets the peer discovery class to use. If none is provided then DNS is used, which is a reasonable default. */ public WalletAppKit setDiscovery(@Nullable PeerDiscovery discovery) { this.discovery = discovery; return this; } /** *

Override this to return wallet extensions if any are necessary.

* *

When this is called, chain(), store(), and peerGroup() will return the created objects, however they are not * initialized/started.

*/ protected List provideWalletExtensions() throws Exception { return ImmutableList.of(); } /** * Override this to use a {@link BlockStore} that isn't the default of {@link SPVBlockStore}. */ protected BlockStore provideBlockStore(File file) throws BlockStoreException { return new SPVBlockStore(params, file); } /** * This method is invoked on a background thread after all objects are initialised, but before the peer group * or block chain download is started. You can tweak the objects configuration here. */ protected void onSetupCompleted() { } /** * Tests to see if the spvchain file has an operating system file lock on it. Useful for checking if your app * is already running. If another copy of your app is running and you start the appkit anyway, an exception will * be thrown during the startup process. Returns false if the chain file does not exist or is a directory. */ public boolean isChainFileLocked() throws IOException { RandomAccessFile file2 = null; try { File file = new File(directory, filePrefix + ".spvchain"); if (!file.exists()) return false; if (file.isDirectory()) return false; file2 = new RandomAccessFile(file, "rw"); FileLock lock = file2.getChannel().tryLock(); if (lock == null) return true; lock.release(); return false; } finally { if (file2 != null) file2.close(); } } @Override protected void startUp() throws Exception { // Runs in a separate thread. Context.propagate(context); if (!directory.exists()) { if (!directory.mkdirs()) { throw new IOException("Could not create directory " + directory.getAbsolutePath()); } } log.info("Starting up with directory = {}", directory); try { File chainFile = new File(directory, filePrefix + ".spvchain"); boolean chainFileExists = chainFile.exists(); vWalletFile = new File(directory, filePrefix + ".wallet"); boolean shouldReplayWallet = (vWalletFile.exists() && !chainFileExists) || restoreFromSeed != null; vWallet = createOrLoadWallet(shouldReplayWallet); // Initiate Bitcoin network objects (block store, blockchain and peer group) vStore = provideBlockStore(chainFile); if (!chainFileExists || restoreFromSeed != null) { if (checkpoints == null && !Utils.isAndroidRuntime()) { checkpoints = CheckpointManager.openStream(params); } if (checkpoints != null) { // Initialize the chain file with a checkpoint to speed up first-run sync. long time; if (restoreFromSeed != null) { time = restoreFromSeed.getCreationTimeSeconds(); if (chainFileExists) { log.info("Deleting the chain file in preparation from restore."); vStore.close(); if (!chainFile.delete()) throw new IOException("Failed to delete chain file in preparation for restore."); vStore = new SPVBlockStore(params, chainFile); } } else { time = vWallet.getEarliestKeyCreationTime(); } if (time > 0) CheckpointManager.checkpoint(params, checkpoints, vStore, time); else log.warn("Creating a new uncheckpointed block store due to a wallet with a creation time of zero: this will result in a very slow chain sync"); } else if (chainFileExists) { log.info("Deleting the chain file in preparation from restore."); vStore.close(); if (!chainFile.delete()) throw new IOException("Failed to delete chain file in preparation for restore."); vStore = new SPVBlockStore(params, chainFile); } } vChain = new BlockChain(params, vStore); vPeerGroup = createPeerGroup(); if (this.userAgent != null) vPeerGroup.setUserAgent(userAgent, version); // Set up peer addresses or discovery first, so if wallet extensions try to broadcast a transaction // before we're actually connected the broadcast waits for an appropriate number of connections. if (peerAddresses != null) { for (PeerAddress addr : peerAddresses) vPeerGroup.addAddress(addr); vPeerGroup.setMaxConnections(peerAddresses.length); peerAddresses = null; } else if (!params.getId().equals(NetworkParameters.ID_REGTEST)) { vPeerGroup.addPeerDiscovery(discovery != null ? discovery : new DnsDiscovery(params)); } vChain.addWallet(vWallet); vPeerGroup.addWallet(vWallet); onSetupCompleted(); if (blockingStartup) { vPeerGroup.start(); // Make sure we shut down cleanly. installShutdownHook(); completeExtensionInitiations(vPeerGroup); // TODO: Be able to use the provided download listener when doing a blocking startup. final DownloadProgressTracker listener = new DownloadProgressTracker(); vPeerGroup.startBlockChainDownload(listener); listener.await(); } else { Futures.addCallback(vPeerGroup.startAsync(), new FutureCallback() { @Override public void onSuccess(@Nullable Object result) { completeExtensionInitiations(vPeerGroup); final DownloadProgressTracker l = downloadListener == null ? new DownloadProgressTracker() : downloadListener; vPeerGroup.startBlockChainDownload(l); } @Override public void onFailure(Throwable t) { throw new RuntimeException(t); } }); } } catch (BlockStoreException e) { throw new IOException(e); } } private Wallet createOrLoadWallet(boolean shouldReplayWallet) throws Exception { Wallet wallet; maybeMoveOldWalletOutOfTheWay(); if (vWalletFile.exists()) { wallet = loadWallet(shouldReplayWallet); } else { wallet = createWallet(); wallet.freshReceiveKey(); for (WalletExtension e : provideWalletExtensions()) { wallet.addExtension(e); } // Currently the only way we can be sure that an extension is aware of its containing wallet is by // deserializing the extension (see WalletExtension#deserializeWalletExtension(Wallet, byte[])) // Hence, we first save and then load wallet to ensure any extensions are correctly initialized. wallet.saveToFile(vWalletFile); wallet = loadWallet(false); } if (useAutoSave) { this.setupAutoSave(wallet); } return wallet; } protected void setupAutoSave(Wallet wallet) { wallet.autosaveToFile(vWalletFile, 5, TimeUnit.SECONDS, null); } private Wallet loadWallet(boolean shouldReplayWallet) throws Exception { Wallet wallet; FileInputStream walletStream = new FileInputStream(vWalletFile); try { List extensions = provideWalletExtensions(); WalletExtension[] extArray = extensions.toArray(new WalletExtension[extensions.size()]); Protos.Wallet proto = WalletProtobufSerializer.parseToProto(walletStream); final WalletProtobufSerializer serializer; if (walletFactory != null) serializer = new WalletProtobufSerializer(walletFactory); else serializer = new WalletProtobufSerializer(); wallet = serializer.readWallet(params, extArray, proto); if (shouldReplayWallet) wallet.reset(); } finally { walletStream.close(); } return wallet; } protected Wallet createWallet() { KeyChainGroup kcg; if (restoreFromSeed != null) kcg = new KeyChainGroup(params, restoreFromSeed); else kcg = new KeyChainGroup(params); if (walletFactory != null) { return walletFactory.create(params, kcg); } else { return new Wallet(params, kcg); // default } } private void maybeMoveOldWalletOutOfTheWay() { if (restoreFromSeed == null) return; if (!vWalletFile.exists()) return; int counter = 1; File newName; do { newName = new File(vWalletFile.getParent(), "Backup " + counter + " for " + vWalletFile.getName()); counter++; } while (newName.exists()); log.info("Renaming old wallet file {} to {}", vWalletFile, newName); if (!vWalletFile.renameTo(newName)) { // This should not happen unless something is really messed up. throw new RuntimeException("Failed to rename wallet for restore"); } } /* * As soon as the transaction broadcaster han been created we will pass it to the * payment channel extensions */ private void completeExtensionInitiations(TransactionBroadcaster transactionBroadcaster) { StoredPaymentChannelClientStates clientStoredChannels = (StoredPaymentChannelClientStates) vWallet.getExtensions().get(StoredPaymentChannelClientStates.class.getName()); if(clientStoredChannels != null) { clientStoredChannels.setTransactionBroadcaster(transactionBroadcaster); } StoredPaymentChannelServerStates serverStoredChannels = (StoredPaymentChannelServerStates) vWallet.getExtensions().get(StoredPaymentChannelServerStates.class.getName()); if(serverStoredChannels != null) { serverStoredChannels.setTransactionBroadcaster(transactionBroadcaster); } } protected PeerGroup createPeerGroup() throws TimeoutException { return new PeerGroup(params, vChain); } private void installShutdownHook() { if (autoStop) Runtime.getRuntime().addShutdownHook(new Thread() { @Override public void run() { try { WalletAppKit.this.stopAsync(); WalletAppKit.this.awaitTerminated(); } catch (Exception e) { throw new RuntimeException(e); } } }); } @Override protected void shutDown() throws Exception { // Runs in a separate thread. try { Context.propagate(context); vPeerGroup.stop(); vWallet.saveToFile(vWalletFile); vStore.close(); vPeerGroup = null; vWallet = null; vStore = null; vChain = null; } catch (BlockStoreException e) { throw new IOException(e); } } public NetworkParameters params() { return params; } public BlockChain chain() { checkState(state() == State.STARTING || state() == State.RUNNING, "Cannot call until startup is complete"); return vChain; } public BlockStore store() { checkState(state() == State.STARTING || state() == State.RUNNING, "Cannot call until startup is complete"); return vStore; } public Wallet wallet() { checkState(state() == State.STARTING || state() == State.RUNNING, "Cannot call until startup is complete"); return vWallet; } public PeerGroup peerGroup() { checkState(state() == State.STARTING || state() == State.RUNNING, "Cannot call until startup is complete"); return vPeerGroup; } public File directory() { return directory; } }




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