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https://github.com/sparrowwallet/drongo.git
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add multisig output descriptors
This commit is contained in:
parent
e8f9e329a7
commit
45154359e9
6 changed files with 408 additions and 182 deletions
185
src/main/java/com/craigraw/drongo/ExtendedPublicKey.java
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185
src/main/java/com/craigraw/drongo/ExtendedPublicKey.java
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@ -0,0 +1,185 @@
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package com.craigraw.drongo;
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import com.craigraw.drongo.crypto.*;
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import com.craigraw.drongo.protocol.Base58;
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import java.nio.ByteBuffer;
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import java.util.ArrayList;
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import java.util.Arrays;
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import java.util.Collections;
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import java.util.List;
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public class ExtendedPublicKey {
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private static final int bip32HeaderP2PKHXPub = 0x0488B21E; //The 4 byte header that serializes in base58 to "xpub".
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private static final int bip32HeaderP2PKHYPub = 0x049D7CB2; //The 4 byte header that serializes in base58 to "ypub".
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private static final int bip32HeaderP2WPKHZPub = 0x04B24746; // The 4 byte header that serializes in base58 to "zpub"
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private static final int bip32HeaderP2WHSHPub = 0x2AA7ED3; // The 4 byte header that serializes in base58 to "Zpub"
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private int parentFingerprint;
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private String keyDerivationPath;
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private DeterministicKey pubKey;
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private String childDerivationPath;
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private ChildNumber pubKeyChildNumber;
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private DeterministicHierarchy hierarchy;
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public ExtendedPublicKey(int parentFingerprint, String keyDerivationPath, DeterministicKey pubKey, String childDerivationPath, ChildNumber pubKeyChildNumber) {
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this.parentFingerprint = parentFingerprint;
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this.keyDerivationPath = keyDerivationPath;
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this.pubKey = pubKey;
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this.childDerivationPath = childDerivationPath;
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this.pubKeyChildNumber = pubKeyChildNumber;
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this.hierarchy = new DeterministicHierarchy(pubKey);
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}
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public int getParentFingerprint() {
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return parentFingerprint;
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}
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public List<ChildNumber> getKeyDerivation() {
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return parsePath(keyDerivationPath);
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}
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public DeterministicKey getPubKey() {
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return pubKey;
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}
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public List<ChildNumber> getChildDerivation() {
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return getChildDerivation(0);
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}
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public List<ChildNumber> getChildDerivation(int wildCardReplacement) {
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return getChildDerivation(getPubKey().getChildNumber(), childDerivationPath, wildCardReplacement);
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}
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public boolean describesMultipleAddresses() {
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return childDerivationPath.endsWith("/*");
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}
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public List<ChildNumber> getReceivingDerivation(int wildCardReplacement) {
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if(describesMultipleAddresses()) {
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if(childDerivationPath.endsWith("0/*")) {
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return getChildDerivation(getPubKey().getChildNumber(), childDerivationPath, wildCardReplacement);
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}
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if(pubKeyChildNumber.num() == 0 && childDerivationPath.endsWith("/*")) {
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return getChildDerivation(new ChildNumber(0, getPubKey().getChildNumber().isHardened()), childDerivationPath, wildCardReplacement);
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}
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}
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throw new IllegalStateException("Cannot derive receiving address from output descriptor " + this.toString());
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}
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public List<ChildNumber> getChangeDerivation(int wildCardReplacement) {
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if(describesMultipleAddresses()) {
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if(childDerivationPath.endsWith("0/*")) {
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return getChildDerivation(getPubKey().getChildNumber(), childDerivationPath.replace("0/*", "1/*"), wildCardReplacement);
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}
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if(pubKeyChildNumber.num() == 1 && childDerivationPath.endsWith("/*")) {
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return getChildDerivation(new ChildNumber(1, getPubKey().getChildNumber().isHardened()), childDerivationPath, wildCardReplacement);
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}
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}
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throw new IllegalStateException("Cannot derive change address from output descriptor " + this.toString());
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}
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private List<ChildNumber> getChildDerivation(ChildNumber firstChild, String derivationPath, int wildCardReplacement) {
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List<ChildNumber> path = new ArrayList<>();
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path.add(firstChild);
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path.addAll(parsePath(derivationPath, wildCardReplacement));
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return path;
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}
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public DeterministicKey getKey(List<ChildNumber> path) {
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return hierarchy.get(path);
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}
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public static List<ChildNumber> parsePath(String path) {
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return parsePath(path, 0);
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}
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public static List<ChildNumber> parsePath(String path, int wildcardReplacement) {
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String[] parsedNodes = path.replace("M", "").split("/");
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List<ChildNumber> nodes = new ArrayList<>();
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for (String n : parsedNodes) {
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n = n.replaceAll(" ", "");
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if (n.length() == 0) continue;
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boolean isHard = n.endsWith("H") || n.endsWith("h") || n.endsWith("'");
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if (isHard) n = n.substring(0, n.length() - 1);
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if (n.equals("*")) n = Integer.toString(wildcardReplacement);
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int nodeNumber = Integer.parseInt(n);
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nodes.add(new ChildNumber(nodeNumber, isHard));
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}
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return nodes;
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}
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public String toString() {
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StringBuilder builder = new StringBuilder();
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builder.append(getExtendedPublicKey());
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builder.append(childDerivationPath);
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return builder.toString();
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}
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public String getExtendedPublicKey() {
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return Base58.encodeChecked(getExtendedPublicKeyBytes());
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}
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public byte[] getExtendedPublicKeyBytes() {
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ByteBuffer buffer = ByteBuffer.allocate(78);
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buffer.putInt(bip32HeaderP2PKHXPub);
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List<ChildNumber> childPath = parsePath(childDerivationPath);
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int depth = 5 - childPath.size();
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buffer.put((byte)depth);
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buffer.putInt(parentFingerprint);
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buffer.putInt(pubKeyChildNumber.i());
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buffer.put(pubKey.getChainCode());
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buffer.put(pubKey.getPubKey());
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return buffer.array();
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}
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static ExtendedPublicKey fromDescriptor(String keyDerivationPath, String extPubKey, String childDerivationPath) {
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byte[] serializedKey = Base58.decodeChecked(extPubKey);
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ByteBuffer buffer = ByteBuffer.wrap(serializedKey);
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int header = buffer.getInt();
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if(!(header == bip32HeaderP2PKHXPub || header == bip32HeaderP2PKHYPub || header == bip32HeaderP2WPKHZPub || header == bip32HeaderP2WHSHPub)) {
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throw new IllegalArgumentException("Unknown header bytes: " + DeterministicKey.toBase58(serializedKey).substring(0, 4));
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}
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int depth = buffer.get() & 0xFF; // convert signed byte to positive int since depth cannot be negative
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final int parentFingerprint = buffer.getInt();
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final int i = buffer.getInt();
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ChildNumber childNumber;
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List<ChildNumber> path;
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if(depth == 0) {
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//Poorly formatted extended public key, add first child path element
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childNumber = new ChildNumber(0, false);
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} else if ((i & ChildNumber.HARDENED_BIT) != 0) {
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childNumber = new ChildNumber(i ^ ChildNumber.HARDENED_BIT, true); //already hardened
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} else {
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childNumber = new ChildNumber(i, false);
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}
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path = Collections.unmodifiableList(new ArrayList<>(Arrays.asList(childNumber)));
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byte[] chainCode = new byte[32];
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buffer.get(chainCode);
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byte[] data = new byte[33];
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buffer.get(data);
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if(buffer.hasRemaining()) {
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throw new IllegalArgumentException("Found unexpected data in key");
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}
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DeterministicKey pubKey = new DeterministicKey(path, chainCode, new LazyECPoint(ECKey.CURVE.getCurve(), data), depth, parentFingerprint);
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return new ExtendedPublicKey(parentFingerprint, keyDerivationPath, pubKey, childDerivationPath, childNumber);
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}
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}
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@ -1,113 +1,114 @@
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package com.craigraw.drongo;
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import com.craigraw.drongo.address.Address;
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import com.craigraw.drongo.address.P2PKHAddress;
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import com.craigraw.drongo.address.P2SHAddress;
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import com.craigraw.drongo.address.P2WPKHAddress;
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import com.craigraw.drongo.address.*;
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import com.craigraw.drongo.crypto.ChildNumber;
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import com.craigraw.drongo.crypto.DeterministicKey;
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import com.craigraw.drongo.crypto.ECKey;
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import com.craigraw.drongo.crypto.LazyECPoint;
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import com.craigraw.drongo.protocol.Base58;
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import com.craigraw.drongo.protocol.Script;
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import org.slf4j.Logger;
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import org.slf4j.LoggerFactory;
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import com.craigraw.drongo.protocol.ScriptChunk;
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import com.craigraw.drongo.protocol.ScriptOpCodes;
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import java.nio.ByteBuffer;
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import java.util.ArrayList;
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import java.util.Arrays;
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import java.util.Collections;
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import java.util.List;
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import java.util.StringJoiner;
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import java.util.regex.Matcher;
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import java.util.regex.Pattern;
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public class OutputDescriptor {
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private static final Logger log = LoggerFactory.getLogger(OutputDescriptor.class);
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private static final int bip32HeaderP2PKHXPub = 0x0488B21E; //The 4 byte header that serializes in base58 to "xpub".
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private static final int bip32HeaderP2PKHYPub = 0x049D7CB2; //The 4 byte header that serializes in base58 to "ypub".
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private static final int bip32HeaderP2WPKHZPub = 0x04B24746; // The 4 byte header that serializes in base58 to "zpub"
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private static final Pattern DESCRIPTOR_PATTERN = Pattern.compile("(.+)\\((\\[[^\\]]+\\])?(xpub[^/\\)]+)(/[/\\d*']+)?\\)\\)?");
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private static final Pattern XPUB_PATTERN = Pattern.compile("(\\[[^\\]]+\\])?(.pub[^/\\)]+)(/[/\\d*']+)?");
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private static final Pattern MULTI_PATTERN = Pattern.compile("multi\\(([\\d+])");
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private String script;
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private int parentFingerprint;
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private String keyDerivationPath;
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private DeterministicKey pubKey;
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private String childDerivationPath;
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private ChildNumber pubKeyChildNumber;
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private int multisigThreshold;
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private List<ExtendedPublicKey> extendedPublicKeys;
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public OutputDescriptor(String script, int parentFingerprint, String keyDerivationPath, DeterministicKey pubKey, String childDerivationPath, ChildNumber pubKeyChildNumber) {
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public OutputDescriptor(String script, ExtendedPublicKey extendedPublicKey) {
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this(script, Collections.singletonList(extendedPublicKey));
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}
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public OutputDescriptor(String script, List<ExtendedPublicKey> extendedPublicKeys) {
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this(script, 0, extendedPublicKeys);
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}
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public OutputDescriptor(String script, int multisigThreshold, List<ExtendedPublicKey> extendedPublicKeys) {
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this.script = script;
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this.parentFingerprint = parentFingerprint;
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this.keyDerivationPath = keyDerivationPath;
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this.pubKey = pubKey;
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this.childDerivationPath = childDerivationPath;
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this.pubKeyChildNumber = pubKeyChildNumber;
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this.multisigThreshold = multisigThreshold;
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this.extendedPublicKeys = extendedPublicKeys;
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}
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public List<ExtendedPublicKey> getExtendedPublicKeys() {
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return extendedPublicKeys;
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}
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public boolean isMultisig() {
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return extendedPublicKeys.size() > 1;
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}
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public ExtendedPublicKey getSingletonExtendedPublicKey() {
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if(isMultisig()) {
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throw new IllegalStateException("Output descriptor contains multiple public keys but singleton requested");
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}
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return extendedPublicKeys.get(0);
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}
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public String getScript() {
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return script;
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}
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public int getParentFingerprint() {
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return parentFingerprint;
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}
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public boolean describesMultipleAddresses() {
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for(ExtendedPublicKey pubKey : extendedPublicKeys) {
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if(!pubKey.describesMultipleAddresses()) {
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return false;
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}
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}
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public List<ChildNumber> getKeyDerivation() {
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return parsePath(keyDerivationPath);
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}
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public DeterministicKey getPubKey() {
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return pubKey;
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return true;
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}
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public List<ChildNumber> getChildDerivation() {
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return getChildDerivation(0);
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}
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List<ChildNumber> lastDerivation = null;
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for(ExtendedPublicKey pubKey : extendedPublicKeys) {
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List<ChildNumber> derivation = pubKey.getChildDerivation();
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if(lastDerivation != null && !lastDerivation.subList(1, lastDerivation.size()).equals(derivation.subList(1, derivation.size()))) {
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throw new IllegalStateException("Cannot determine multisig derivation: constituent derivations do not match");
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}
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lastDerivation = derivation;
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}
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public List<ChildNumber> getChildDerivation(int wildCardReplacement) {
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return getChildDerivation(new ChildNumber(0, getPubKey().getChildNumber().isHardened()), childDerivationPath, wildCardReplacement);
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}
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public boolean describesMultipleAddresses() {
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return childDerivationPath.endsWith("/*");
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return lastDerivation;
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}
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public List<ChildNumber> getReceivingDerivation(int wildCardReplacement) {
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if(describesMultipleAddresses()) {
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if(childDerivationPath.endsWith("0/*")) {
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return getChildDerivation(new ChildNumber(0, getPubKey().getChildNumber().isHardened()), childDerivationPath, wildCardReplacement);
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}
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if(pubKeyChildNumber.num() == 0 && childDerivationPath.endsWith("/*")) {
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return getChildDerivation(new ChildNumber(0, getPubKey().getChildNumber().isHardened()), childDerivationPath, wildCardReplacement);
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}
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if(isMultisig()) {
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List<ChildNumber> path = new ArrayList<>();
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path.add(new ChildNumber(0));
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path.add(new ChildNumber(wildCardReplacement));
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return path;
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}
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throw new IllegalStateException("Cannot derive receiving address from output descriptor " + this.toString());
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return getSingletonExtendedPublicKey().getReceivingDerivation(wildCardReplacement);
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}
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public List<ChildNumber> getChangeDerivation(int wildCardReplacement) {
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if(describesMultipleAddresses()) {
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if(childDerivationPath.endsWith("0/*")) {
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return getChildDerivation(new ChildNumber(0, getPubKey().getChildNumber().isHardened()), childDerivationPath.replace("0/*", "1/*"), wildCardReplacement);
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}
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if(pubKeyChildNumber.num() == 1 && childDerivationPath.endsWith("/*")) {
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return getChildDerivation(new ChildNumber(1, getPubKey().getChildNumber().isHardened()), childDerivationPath, wildCardReplacement);
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}
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if(isMultisig()) {
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List<ChildNumber> path = new ArrayList<>();
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path.add(new ChildNumber(1));
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path.add(new ChildNumber(wildCardReplacement));
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return path;
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}
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throw new IllegalStateException("Cannot derive change address from output descriptor " + this.toString());
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return getSingletonExtendedPublicKey().getChangeDerivation(wildCardReplacement);
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}
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private List<ChildNumber> getChildDerivation(ChildNumber firstChild, String derivationPath, int wildCardReplacement) {
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List<ChildNumber> path = new ArrayList<>();
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path.add(firstChild);
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path.addAll(parsePath(derivationPath, wildCardReplacement));
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public Address getAddress(List<ChildNumber> path) {
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if(isMultisig()) {
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Script script = getMultisigScript(path);
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return getAddress(script);
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}
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return path;
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DeterministicKey childKey = getSingletonExtendedPublicKey().getKey(path);
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return getAddress(childKey);
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}
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public Address getAddress(DeterministicKey childKey) {
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@ -127,105 +128,110 @@ public class OutputDescriptor {
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return address;
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}
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private Address getAddress(Script multisigScript) {
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Address address = null;
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if(script.equals("sh(multi")) {
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address = P2SHAddress.fromProgram(multisigScript.getProgram());
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} else if(script.equals("wsh(multi")) {
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address = P2WSHAddress.fromProgram(multisigScript.getProgram());
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} else {
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throw new IllegalStateException("Cannot determine address for multisig script " + script);
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}
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return address;
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}
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private Script getMultisigScript(List<ChildNumber> path) {
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List<ScriptChunk> chunks = new ArrayList<>();
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chunks.add(new ScriptChunk(Script.encodeToOpN(multisigThreshold), null));
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for(ExtendedPublicKey pubKey : extendedPublicKeys) {
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List<ChildNumber> keyPath = null;
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if(path.get(0).num() == 0) {
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keyPath = pubKey.getReceivingDerivation(path.get(1).num());
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} else if(path.get(0).num() == 1) {
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keyPath = pubKey.getChangeDerivation(path.get(1).num());
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} else {
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keyPath = pubKey.getChildDerivation(path.get(1).num());
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}
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byte[] pubKeyBytes = pubKey.getKey(keyPath).getPubKey();
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chunks.add(new ScriptChunk(pubKeyBytes.length, pubKeyBytes));
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}
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chunks.add(new ScriptChunk(Script.encodeToOpN(extendedPublicKeys.size()), null));
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chunks.add(new ScriptChunk(ScriptOpCodes.OP_CHECKMULTISIG, null));
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return new Script(chunks);
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}
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// See https://github.com/bitcoin/bitcoin/blob/master/doc/descriptors.md
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public static OutputDescriptor getOutputDescriptor(String descriptor) {
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String script;
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String keyDerivationPath ="";
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String extPubKey = null;
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String childDerivationPath = "/0/*";
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Matcher matcher = DESCRIPTOR_PATTERN.matcher(descriptor);
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if(matcher.matches()) {
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script = matcher.group(1);
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if(matcher.group(2) != null) {
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keyDerivationPath = matcher.group(2);
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}
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extPubKey = matcher.group(3);
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if(matcher.group(4) != null) {
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childDerivationPath = matcher.group(4);
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}
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} else if (descriptor.startsWith("xpub")) {
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extPubKey = descriptor;
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script = "pkh";
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} else if(descriptor.startsWith("ypub")) {
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extPubKey = descriptor;
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script = "sh(wpkh";
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} else if(descriptor.startsWith("zpub")) {
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extPubKey = descriptor;
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script = "wpkh";
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if(descriptor.startsWith("pkh") || descriptor.startsWith("xpub")) {
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return new OutputDescriptor("pkh", getExtendedPublicKeys(descriptor));
|
||||
} else if(descriptor.startsWith("wpkh") || descriptor.startsWith("zpub")) {
|
||||
return new OutputDescriptor("wpkh", getExtendedPublicKeys(descriptor));
|
||||
} else if(descriptor.startsWith("sh(wpkh") || descriptor.startsWith("ypub")) {
|
||||
return new OutputDescriptor("sh(wpkh", getExtendedPublicKeys(descriptor));
|
||||
} else if(descriptor.startsWith("sh(multi") || descriptor.startsWith("Ypub")) {
|
||||
return new OutputDescriptor("sh(multi", getMultsigThreshold(descriptor), getExtendedPublicKeys(descriptor));
|
||||
} else if(descriptor.startsWith("wsh(multi") || descriptor.startsWith("Zpub")) {
|
||||
return new OutputDescriptor("wsh(multi", getMultsigThreshold(descriptor), getExtendedPublicKeys(descriptor));
|
||||
} else {
|
||||
throw new IllegalArgumentException("Could not parse output descriptor:" + descriptor);
|
||||
}
|
||||
}
|
||||
|
||||
byte[] serializedKey = Base58.decodeChecked(extPubKey);
|
||||
ByteBuffer buffer = ByteBuffer.wrap(serializedKey);
|
||||
int header = buffer.getInt();
|
||||
if(!(header == bip32HeaderP2PKHXPub || header == bip32HeaderP2PKHYPub || header == bip32HeaderP2WPKHZPub)) {
|
||||
throw new IllegalArgumentException("Unknown header bytes: " + DeterministicKey.toBase58(serializedKey).substring(0, 4));
|
||||
}
|
||||
|
||||
int depth = buffer.get() & 0xFF; // convert signed byte to positive int since depth cannot be negative
|
||||
final int parentFingerprint = buffer.getInt();
|
||||
final int i = buffer.getInt();
|
||||
ChildNumber childNumber;
|
||||
List<ChildNumber> path;
|
||||
|
||||
if(depth == 0) {
|
||||
//Poorly formatted extended public key, add first child path element
|
||||
childNumber = new ChildNumber(0, false);
|
||||
} else if ((i & ChildNumber.HARDENED_BIT) != 0) {
|
||||
childNumber = new ChildNumber(i ^ ChildNumber.HARDENED_BIT, true); //already hardened
|
||||
private static int getMultsigThreshold(String descriptor) {
|
||||
Matcher matcher = MULTI_PATTERN.matcher(descriptor);
|
||||
if(matcher.find()) {
|
||||
String threshold = matcher.group(1);
|
||||
return Integer.parseInt(threshold);
|
||||
} else {
|
||||
childNumber = new ChildNumber(i, false);
|
||||
throw new IllegalArgumentException("Could not find multisig threshold in output descriptor:" + descriptor);
|
||||
}
|
||||
path = Collections.unmodifiableList(new ArrayList<>(Arrays.asList(childNumber)));
|
||||
|
||||
//Remove account level for depth 4 keys
|
||||
if(depth == 4 && (descriptor.startsWith("xpub") || descriptor.startsWith("ypub") || descriptor.startsWith("zpub"))) {
|
||||
log.warn("Output descriptor describes a public key derived at depth 4; change addresses not available");
|
||||
childDerivationPath = "/*";
|
||||
}
|
||||
|
||||
byte[] chainCode = new byte[32];
|
||||
buffer.get(chainCode);
|
||||
byte[] data = new byte[33];
|
||||
buffer.get(data);
|
||||
if(buffer.hasRemaining()) {
|
||||
throw new IllegalArgumentException("Found unexpected data in key");
|
||||
}
|
||||
|
||||
DeterministicKey pubKey = new DeterministicKey(path, chainCode, new LazyECPoint(ECKey.CURVE.getCurve(), data), depth, parentFingerprint);
|
||||
return new OutputDescriptor(script, parentFingerprint, keyDerivationPath, pubKey, childDerivationPath, childNumber);
|
||||
}
|
||||
|
||||
public static List<ChildNumber> parsePath(String path) {
|
||||
return parsePath(path, 0);
|
||||
}
|
||||
private static List<ExtendedPublicKey> getExtendedPublicKeys(String descriptor) {
|
||||
List<ExtendedPublicKey> keys = new ArrayList<>();
|
||||
Matcher matcher = XPUB_PATTERN.matcher(descriptor);
|
||||
while(matcher.find()) {
|
||||
String keyDerivationPath ="";
|
||||
String extPubKey = null;
|
||||
String childDerivationPath = "/0/*";
|
||||
|
||||
public static List<ChildNumber> parsePath(String path, int wildcardReplacement) {
|
||||
String[] parsedNodes = path.replace("M", "").split("/");
|
||||
List<ChildNumber> nodes = new ArrayList<>();
|
||||
if(matcher.group(1) != null) {
|
||||
keyDerivationPath = matcher.group(1);
|
||||
}
|
||||
|
||||
for (String n : parsedNodes) {
|
||||
n = n.replaceAll(" ", "");
|
||||
if (n.length() == 0) continue;
|
||||
boolean isHard = n.endsWith("H") || n.endsWith("h") || n.endsWith("'");
|
||||
if (isHard) n = n.substring(0, n.length() - 1);
|
||||
if (n.equals("*")) n = Integer.toString(wildcardReplacement);
|
||||
int nodeNumber = Integer.parseInt(n);
|
||||
nodes.add(new ChildNumber(nodeNumber, isHard));
|
||||
extPubKey = matcher.group(2);
|
||||
if(matcher.group(3) != null) {
|
||||
childDerivationPath = matcher.group(3);
|
||||
}
|
||||
|
||||
ExtendedPublicKey extendedPublicKey = ExtendedPublicKey.fromDescriptor(keyDerivationPath, extPubKey, childDerivationPath);
|
||||
keys.add(extendedPublicKey);
|
||||
}
|
||||
|
||||
return nodes;
|
||||
return keys;
|
||||
}
|
||||
|
||||
public String toString() {
|
||||
StringBuilder builder = new StringBuilder();
|
||||
builder.append(script);
|
||||
builder.append("(");
|
||||
builder.append(getExtendedPublicKey());
|
||||
builder.append(childDerivationPath);
|
||||
|
||||
if(isMultisig()) {
|
||||
StringJoiner joiner = new StringJoiner(",");
|
||||
joiner.add(Integer.toString(multisigThreshold));
|
||||
for(ExtendedPublicKey pubKey : extendedPublicKeys) {
|
||||
joiner.add(pubKey.toString());
|
||||
}
|
||||
builder.append(joiner.toString());
|
||||
} else {
|
||||
builder.append(getSingletonExtendedPublicKey());
|
||||
}
|
||||
|
||||
builder.append(")");
|
||||
|
||||
if(script.contains("(")){
|
||||
|
@ -234,26 +240,4 @@ public class OutputDescriptor {
|
|||
|
||||
return builder.toString();
|
||||
}
|
||||
|
||||
public String getExtendedPublicKey() {
|
||||
return Base58.encodeChecked(getExtendedPublicKeyBytes());
|
||||
}
|
||||
|
||||
public byte[] getExtendedPublicKeyBytes() {
|
||||
ByteBuffer buffer = ByteBuffer.allocate(78);
|
||||
buffer.putInt(bip32HeaderP2PKHXPub);
|
||||
|
||||
List<ChildNumber> childPath = parsePath(childDerivationPath);
|
||||
int depth = 5 - childPath.size();
|
||||
buffer.put((byte)depth);
|
||||
|
||||
buffer.putInt(parentFingerprint);
|
||||
|
||||
buffer.putInt(pubKeyChildNumber.i());
|
||||
|
||||
buffer.put(pubKey.getChainCode());
|
||||
buffer.put(pubKey.getPubKey());
|
||||
|
||||
return buffer.array();
|
||||
}
|
||||
}
|
||||
|
|
|
@ -11,32 +11,30 @@ public class WatchWallet {
|
|||
|
||||
private String name;
|
||||
private OutputDescriptor outputDescriptor;
|
||||
private DeterministicHierarchy hierarchy;
|
||||
|
||||
private HashMap<Address,List<ChildNumber>> addresses = new HashMap<>(LOOK_AHEAD_LIMIT*2);
|
||||
|
||||
public WatchWallet(String name, String descriptor) {
|
||||
this.name = name;
|
||||
this.outputDescriptor = OutputDescriptor.getOutputDescriptor(descriptor);
|
||||
this.hierarchy = new DeterministicHierarchy(outputDescriptor.getPubKey());
|
||||
}
|
||||
|
||||
public void initialiseAddresses() {
|
||||
if(outputDescriptor.describesMultipleAddresses()) {
|
||||
for(int index = 0; index <= LOOK_AHEAD_LIMIT; index++) {
|
||||
List<ChildNumber> receivingDerivation = outputDescriptor.getReceivingDerivation(index);
|
||||
Address address = getAddress(receivingDerivation);
|
||||
Address address = getReceivingAddress(index);
|
||||
addresses.put(address, receivingDerivation);
|
||||
}
|
||||
|
||||
for(int index = 0; index <= LOOK_AHEAD_LIMIT; index++) {
|
||||
List<ChildNumber> changeDerivation = outputDescriptor.getChangeDerivation(index);
|
||||
Address address = getAddress(changeDerivation);
|
||||
Address address = getChangeAddress(index);
|
||||
addresses.put(address, changeDerivation);
|
||||
}
|
||||
} else {
|
||||
List<ChildNumber> derivation = outputDescriptor.getChildDerivation();
|
||||
Address address = getAddress(derivation);
|
||||
Address address = outputDescriptor.getAddress(derivation);
|
||||
addresses.put(address, derivation);
|
||||
}
|
||||
}
|
||||
|
@ -61,8 +59,11 @@ public class WatchWallet {
|
|||
return getAddress(outputDescriptor.getChangeDerivation(index));
|
||||
}
|
||||
|
||||
private Address getAddress(List<ChildNumber> path) {
|
||||
DeterministicKey childKey = hierarchy.get(path);
|
||||
return outputDescriptor.getAddress(childKey);
|
||||
public OutputDescriptor getOutputDescriptor() {
|
||||
return outputDescriptor;
|
||||
}
|
||||
|
||||
public Address getAddress(List<ChildNumber> path) {
|
||||
return outputDescriptor.getAddress(path);
|
||||
}
|
||||
}
|
||||
|
|
34
src/main/java/com/craigraw/drongo/address/P2WSHAddress.java
Normal file
34
src/main/java/com/craigraw/drongo/address/P2WSHAddress.java
Normal file
|
@ -0,0 +1,34 @@
|
|||
package com.craigraw.drongo.address;
|
||||
|
||||
import com.craigraw.drongo.protocol.*;
|
||||
|
||||
import java.util.ArrayList;
|
||||
import java.util.List;
|
||||
|
||||
import static com.craigraw.drongo.address.P2WPKHAddress.HRP;
|
||||
|
||||
public class P2WSHAddress extends Address {
|
||||
public P2WSHAddress(byte[] pubKeyHash) {
|
||||
super(pubKeyHash);
|
||||
}
|
||||
|
||||
public int getVersion() {
|
||||
return 0;
|
||||
}
|
||||
|
||||
public String getAddress() {
|
||||
return Bech32.encode(HRP, getVersion(), pubKeyHash);
|
||||
}
|
||||
|
||||
public Script getOutputScript() {
|
||||
List<ScriptChunk> chunks = new ArrayList<>();
|
||||
chunks.add(new ScriptChunk(Script.encodeToOpN(getVersion()), null));
|
||||
chunks.add(new ScriptChunk(pubKeyHash.length, pubKeyHash));
|
||||
|
||||
return new Script(chunks);
|
||||
}
|
||||
|
||||
public static P2WSHAddress fromProgram(byte[] program) {
|
||||
return new P2WSHAddress(Sha256Hash.hash(program));
|
||||
}
|
||||
}
|
|
@ -13,7 +13,7 @@ public class OutputDescriptorTest {
|
|||
|
||||
@Test
|
||||
public void iancolemanP2PKH() {
|
||||
OutputDescriptor descriptor = OutputDescriptor.getOutputDescriptor("xpub6EEznxrqoN5HUXfD3QC3B8Vjw8Lj9UnRj17uTzNaBnEYN5xgwe6Un46Z443sSTBP2bzLZuDzygkdD1FtVWSexFmg4yAuCTxE2HxXFtz541z");
|
||||
OutputDescriptor descriptor = OutputDescriptor.getOutputDescriptor("xpub6EEznxrqoN5HUXfD3QC3B8Vjw8Lj9UnRj17uTzNaBnEYN5xgwe6Un46Z443sSTBP2bzLZuDzygkdD1FtVWSexFmg4yAuCTxE2HxXFtz541z/*");
|
||||
Assert.assertEquals("pkh(xpub6EEznxrqoN5HUXfD3QC3B8Vjw8Lj9UnRj17uTzNaBnEYN5xgwe6Un46Z443sSTBP2bzLZuDzygkdD1FtVWSexFmg4yAuCTxE2HxXFtz541z/*)", descriptor.toString());
|
||||
}
|
||||
|
||||
|
@ -25,7 +25,7 @@ public class OutputDescriptorTest {
|
|||
|
||||
@Test
|
||||
public void iancolemanP2SHP2WPKH() {
|
||||
OutputDescriptor descriptor = OutputDescriptor.getOutputDescriptor("ypub6Zken22QbjfomRUXki5v4ndP6T1DEtaBhGGZBvR4ocoooM44dFmnF8DyFmvcK76TKnuvdFfaPnicVvTAPdqEcbuEfKEqfnRoUjSkTB4u1os");
|
||||
OutputDescriptor descriptor = OutputDescriptor.getOutputDescriptor("ypub6Zken22QbjfomRUXki5v4ndP6T1DEtaBhGGZBvR4ocoooM44dFmnF8DyFmvcK76TKnuvdFfaPnicVvTAPdqEcbuEfKEqfnRoUjSkTB4u1os/*");
|
||||
Assert.assertEquals("sh(wpkh(xpub6EvPUMMVT48Kv8HQvMJHrhXsvUrmJGagn9kLQXXBRcRvkFEqNbcDd4ZqEZy2KCSXv9o7sn51w8N4cdqbfwRDpNDdnyYR5scKD1P74ZAKbGm/*))", descriptor.toString());
|
||||
}
|
||||
|
||||
|
|
|
@ -16,7 +16,7 @@ public class WatchWalletTest {
|
|||
|
||||
@Test
|
||||
public void iancolemanP2PKH() {
|
||||
WatchWallet wallet = new WatchWallet("", "xpub6EEznxrqoN5HUXfD3QC3B8Vjw8Lj9UnRj17uTzNaBnEYN5xgwe6Un46Z443sSTBP2bzLZuDzygkdD1FtVWSexFmg4yAuCTxE2HxXFtz541z");
|
||||
WatchWallet wallet = new WatchWallet("", "xpub6EEznxrqoN5HUXfD3QC3B8Vjw8Lj9UnRj17uTzNaBnEYN5xgwe6Un46Z443sSTBP2bzLZuDzygkdD1FtVWSexFmg4yAuCTxE2HxXFtz541z/*");
|
||||
|
||||
Assert.assertEquals("179cMrkiyx6zD2E1sqBAQLg1SQPAS5vjQW", wallet.getReceivingAddress(0).toString());
|
||||
Assert.assertEquals("1GdWCzdt5oDYh5n1qeZQCxg5rQKVTuTMJg", wallet.getReceivingAddress(1).toString());
|
||||
|
@ -33,7 +33,7 @@ public class WatchWalletTest {
|
|||
|
||||
@Test
|
||||
public void iancolemanP2SHP2WPKH() {
|
||||
WatchWallet wallet = new WatchWallet("", "ypub6Zken22QbjfomRUXki5v4ndP6T1DEtaBhGGZBvR4ocoooM44dFmnF8DyFmvcK76TKnuvdFfaPnicVvTAPdqEcbuEfKEqfnRoUjSkTB4u1os");
|
||||
WatchWallet wallet = new WatchWallet("", "ypub6Zken22QbjfomRUXki5v4ndP6T1DEtaBhGGZBvR4ocoooM44dFmnF8DyFmvcK76TKnuvdFfaPnicVvTAPdqEcbuEfKEqfnRoUjSkTB4u1os/*");
|
||||
|
||||
Assert.assertEquals("34SgiHwNwJt3nYCVUQcgJWhefVRBZ4aSHf", wallet.getReceivingAddress(0).toString());
|
||||
Assert.assertEquals("3MgPnbF6UYM3FBhZWXoL2ebLPEa3zCCXLh", wallet.getReceivingAddress(1).toString());
|
||||
|
@ -55,4 +55,26 @@ public class WatchWalletTest {
|
|||
Assert.assertEquals("34TBBnwqv338BT6BVnTKqziFq8HWY6BNbw", wallet.getReceivingAddress(0).toString());
|
||||
Assert.assertEquals("35Jhf9LGCpb1ihJjWH7uLZ8othr1diuspS", wallet.getChangeAddress(0).toString());
|
||||
}
|
||||
|
||||
@Test
|
||||
public void electrumP2WSHMulti() {
|
||||
WatchWallet wallet = new WatchWallet("", "wsh(multi(2,xpub699B7APGMoPLUrvPsXiBFrJRV8sTHDBHptpHSH36aESP5SLYs4VcEotnX1EvvA5ZoKF2rZ24Wh4U5ALxM21CfL5Kcj6Tu41PjRr2KKMkJTJ/0/*,xpub6Ds1jx5qxAtdczVBnJfHeGgpspzYuxnXHXLCoPZFFyyMoKJ7zzLgcERB1t7eDV1UuBQL1UKNxHFvcMJ7Zj6D2amdaA8gb21cZSXPrpG1bZr/0/*))");
|
||||
|
||||
Assert.assertEquals("bc1q2jxsrw70ug8jgskmhynvs49h3q5h8fglkdl3trvrc6wsde07wuzqfz98z0", wallet.getReceivingAddress(0).toString());
|
||||
Assert.assertEquals("bc1qzw9j02k6l7z598edcgjh5mks507xevhk34rmnerxv45ptsluf0pqyxmyve", wallet.getChangeAddress(0).toString());
|
||||
}
|
||||
|
||||
@Test
|
||||
public void electrumP2WSHMulti2() {
|
||||
WatchWallet wallet = new WatchWallet("", "wsh(multi(2,Zpub6yhnqjTYE82fc2U1UukQW6qEYsCcNoqsyPWPvL6Qi22YopXv8nD1a44zN87aUQcJr4YdE6DJKEA4xuBr5dzBQHZCBsbiUH7NAcFBgPyx3LB/0/*,Zpub74eXjdXzGCRsixpRAZT3U8ssQ15uhUa1dCFdRJvY3L2qo18He71qWUfpxfbL9e2EYuWKe1tH7qzgUSRVTAektLDVRKwCbAtyRW5j2yhqLiD/0/*))");
|
||||
|
||||
Assert.assertEquals("bc1qa842ug2njv36ycnhq8wjcg6wxjv7p7h4v0tnl40u6nfxxxffyjnq409pr9", wallet.getReceivingAddress(0).toString());
|
||||
Assert.assertEquals("bc1q3auk6c8f77dda0w8y9dz4yd3wqhkf4eufzk8x2quszvzzcyjk6rqgz70pd", wallet.getChangeAddress(0).toString());
|
||||
}
|
||||
|
||||
@Test
|
||||
public void electrumP2WSHMultiSingle() {
|
||||
WatchWallet wallet = new WatchWallet("", "wsh(multi(2,xpub699B7APGMoPLUrvPsXiBFrJRV8sTHDBHptpHSH36aESP5SLYs4VcEotnX1EvvA5ZoKF2rZ24Wh4U5ALxM21CfL5Kcj6Tu41PjRr2KKMkJTJ/0/0,xpub6Ds1jx5qxAtdczVBnJfHeGgpspzYuxnXHXLCoPZFFyyMoKJ7zzLgcERB1t7eDV1UuBQL1UKNxHFvcMJ7Zj6D2amdaA8gb21cZSXPrpG1bZr/0/0))");
|
||||
Assert.assertEquals("bc1q2jxsrw70ug8jgskmhynvs49h3q5h8fglkdl3trvrc6wsde07wuzqfz98z0", wallet.getAddress(wallet.getOutputDescriptor().getChildDerivation()).toString());
|
||||
}
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue