Upgrade to Bouncy Castle 1.50. Patch from Peter Dettman. Resolves issue 497.

core/pom.xml

@@ -155,7 +155,7 @@
                                         <urn>com.google.protobuf:protobuf-java:2.5.0:jar:null:compile:a10732c76bfacdbd633a7eb0f7968b1059a65dfa</urn>
                                         <urn>com.h2database:h2:1.3.167:jar:null:compile:d3867d586f087e53eb12fc65e5693d8ee9a5da17</urn>
                                         <urn>com.lambdaworks:scrypt:1.3.3:jar:null:compile:06d6813de41e177189e1722717979b4fb5454b1d</urn>
-                                        <urn>com.madgag:sc-light-jdk15on:1.47.0.2:jar:null:compile:d5c98671cc97fa0d928be1c7eb5edd3fb95d3234</urn>
+                                        <urn>com.madgag.spongycastle:core:1.50.0.0:jar:null:compile:13e93b00ec9790315debd61fa25ab6a47d3a1c52</urn>
                                         <urn>net.jcip:jcip-annotations:1.0:jar:null:compile:afba4942caaeaf46aab0b976afd57cc7c181467e</urn>
                                         <urn>org.slf4j:slf4j-api:1.7.6:jar:null:compile:562424e36df3d2327e8e9301a76027fca17d54ea</urn>
                                         <urn>org.slf4j:slf4j-jdk14:1.7.6:jar:null:runtime:1a3301a32ea7d90c3d33e9d60edbfdc9589fc748</urn>
@@ -242,9 +242,9 @@
             <optional>true</optional>
         </dependency>
         <dependency>
-            <groupId>com.madgag</groupId>
+            <groupId>com.madgag.spongycastle</groupId>
-            <artifactId>sc-light-jdk15on</artifactId>
+            <artifactId>core</artifactId>
-            <version>1.47.0.2</version>
+            <version>1.50.0.0</version>
         </dependency>
         <dependency>
             <groupId>com.google.protobuf</groupId>

core/src/main/java/com/google/bitcoin/core/ECKey.java

@@ -30,9 +30,11 @@ import org.spongycastle.asn1.sec.SECNamedCurves;
 import org.spongycastle.asn1.x9.X9ECParameters;
 import org.spongycastle.asn1.x9.X9IntegerConverter;
 import org.spongycastle.crypto.AsymmetricCipherKeyPair;
+import org.spongycastle.crypto.digests.SHA256Digest;
 import org.spongycastle.crypto.generators.ECKeyPairGenerator;
 import org.spongycastle.crypto.params.*;
 import org.spongycastle.crypto.signers.ECDSASigner;
+import org.spongycastle.crypto.signers.HMacDSAKCalculator;
 import org.spongycastle.math.ec.ECAlgorithms;
 import org.spongycastle.math.ec.ECCurve;
 import org.spongycastle.math.ec.ECPoint;
@@ -125,19 +127,11 @@ public class ECKey implements Serializable {
         ECPrivateKeyParameters privParams = (ECPrivateKeyParameters) keypair.getPrivate();
         ECPublicKeyParameters pubParams = (ECPublicKeyParameters) keypair.getPublic();
         priv = privParams.getD();
-        // Unfortunately Bouncy Castle does not let us explicitly change a point to be compressed, even though it
+        pub = pubParams.getQ().getEncoded(true);
-        // could easily do so. We must re-build it here so the ECPoints withCompression flag can be set to true.
-        ECPoint uncompressed = pubParams.getQ();
-        ECPoint compressed = compressPoint(uncompressed);
-        pub = compressed.getEncoded();
 
         creationTimeSeconds = Utils.currentTimeSeconds();
     }
 
-    private static ECPoint compressPoint(ECPoint uncompressed) {
-        return new ECPoint.Fp(CURVE.getCurve(), uncompressed.getX(), uncompressed.getY(), true);
-    }
-
     /**
      * Construct an ECKey from an ASN.1 encoded private key. These are produced by OpenSSL and stored by the Bitcoin
      * reference implementation in its wallet. Note that this is slow because it requires an EC point multiply.
@@ -252,9 +246,7 @@ public class ECKey implements Serializable {
      */
     public static byte[] publicKeyFromPrivate(BigInteger privKey, boolean compressed) {
         ECPoint point = CURVE.getG().multiply(privKey);
-        if (compressed)
+        return point.getEncoded(compressed);
-            point = compressPoint(point);
-        return point.getEncoded();
     }
 
     /** Gets the hash160 form of the public key (as seen in addresses). */
@@ -485,7 +477,7 @@ public class ECKey implements Serializable {
             }
         }
 
-        ECDSASigner signer = new ECDSASigner();
+        ECDSASigner signer = new ECDSASigner(new HMacDSAKCalculator(new SHA256Digest()));
         ECPrivateKeyParameters privKey = new ECPrivateKeyParameters(privateKeyForSigning, CURVE);
         signer.init(true, privKey);
         BigInteger[] components = signer.generateSignature(input.getBytes());
@@ -781,11 +773,7 @@ public class ECKey implements Serializable {
         BigInteger srInv = rInv.multiply(sig.s).mod(n);
         BigInteger eInvrInv = rInv.multiply(eInv).mod(n);
         ECPoint.Fp q = (ECPoint.Fp) ECAlgorithms.sumOfTwoMultiplies(CURVE.getG(), eInvrInv, R, srInv);
-        if (compressed) {
+        return new ECKey((byte[])null, q.getEncoded(compressed));
-            // We have to manually recompress the point as the compressed-ness gets lost when multiply() is used.
-            q = new ECPoint.Fp(curve, q.getX(), q.getY(), true);
-        }
-        return new ECKey((byte[])null, q.getEncoded());
     }
 
     /** Decompress a compressed public key (x co-ord and low-bit of y-coord). */

core/src/main/java/com/google/bitcoin/crypto/DeterministicKey.java

@@ -61,7 +61,7 @@ public class DeterministicKey implements Serializable {
         this.parent = parent;
         this.childNumberPath = childNumberPath;
         this.chainCode = Arrays.copyOf(chainCode, chainCode.length);
-        this.publicAsPoint = publicAsPoint == null ? null : HDUtils.compressedCopy(publicAsPoint);
+        this.publicAsPoint = publicAsPoint == null ? null : publicAsPoint.normalize();
         this.privateAsFieldElement = privateKeyFieldElt;
     }
 
@@ -109,13 +109,13 @@ public class DeterministicKey implements Serializable {
     ECPoint getPubPoint() {
         if (publicAsPoint == null) {
             checkNotNull(privateAsFieldElement);
-            publicAsPoint = ECKey.CURVE.getG().multiply(privateAsFieldElement);
+            publicAsPoint = ECKey.CURVE.getG().multiply(privateAsFieldElement).normalize();
         }
-        return HDUtils.compressedCopy(publicAsPoint);
+        return publicAsPoint;
     }
 
     public byte[] getPubKeyBytes() {
-        return getPubPoint().getEncoded();
+        return getPubPoint().getEncoded(true);
     }
 
 

core/src/main/java/com/google/bitcoin/crypto/HDKeyDerivation.java

@@ -127,9 +127,8 @@ public final class HDKeyDerivation {
         } else {
             checkArgument(!childNumber.isPrivateDerivation(), "Can't use private derivation with public keys only.");
             ECPoint Ki = ECKey.CURVE.getG().multiply(ilInt).add(parent.getPubPoint());
-            checkArgument(!Ki.equals(ECKey.CURVE.getCurve().getInfinity()),
+            checkArgument(!Ki.isInfinity(), "Illegal derived key: derived public key equals infinity.");
-                    "Illegal derived key: derived public key equals infinity.");
+            keyBytes = Ki.getEncoded(true);
-            keyBytes = HDUtils.toCompressed(Ki.getEncoded());
         }
         return new RawKeyBytes(keyBytes, chainCode);
     }

core/src/main/java/com/google/bitcoin/crypto/HDUtils.java

@@ -52,16 +52,8 @@ public final class HDUtils {
         return hmacSha512(createHmacSha512Digest(key), data);
     }
 
-    static ECPoint compressedCopy(ECPoint pubKPoint) {
-        return ECKey.CURVE.getCurve().createPoint(pubKPoint.getX().toBigInteger(), pubKPoint.getY().toBigInteger(), true);
-    }
-
-    static ECPoint toUncompressed(ECPoint pubKPoint) {
-        return ECKey.CURVE.getCurve().createPoint(pubKPoint.getX().toBigInteger(), pubKPoint.getY().toBigInteger(), false);
-    }
-
     static byte[] toCompressed(byte[] uncompressedPoint) {
-        return compressedCopy(ECKey.CURVE.getCurve().decodePoint(uncompressedPoint)).getEncoded();
+        return ECKey.CURVE.getCurve().decodePoint(uncompressedPoint).getEncoded(true);
     }
 
     static byte[] longTo4ByteArray(long n) {
@@ -71,7 +63,7 @@ public final class HDUtils {
     }
 
     static byte[] getBytes(ECPoint pubKPoint) {
-        return compressedCopy(pubKPoint).getEncoded();
+        return pubKPoint.getEncoded(true);
     }
 
     static ImmutableList<ChildNumber> append(ImmutableList<ChildNumber> path, ChildNumber childNumber) {

core/src/test/java/com/google/bitcoin/core/ECKeyTest.java

@@ -37,6 +37,7 @@ import org.junit.Test;
 import org.slf4j.Logger;
 import org.slf4j.LoggerFactory;
 import org.spongycastle.crypto.params.KeyParameter;
+import org.spongycastle.util.encoders.DecoderException;
 import org.spongycastle.util.encoders.Hex;
 
 import java.io.InputStream;
@@ -424,8 +425,11 @@ public class ECKeyTest {
                 sig.append((char)c);
 
             try {
-                assertFalse(TransactionSignature.isEncodingCanonical(Hex.decode(sig.toString())));
+                final String sigStr = sig.toString();
-            } catch (StringIndexOutOfBoundsException e) { } // Expected for non-hex strings in the JSON that we should ignore
+                assertFalse(TransactionSignature.isEncodingCanonical(Hex.decode(sigStr)));
+            } catch (DecoderException e) {
+                // Expected for non-hex strings in the JSON that we should ignore
+            }
         }
         in.close();
     }

core/src/test/java/com/google/bitcoin/core/FullBlockTestGenerator.java

@@ -1617,7 +1617,8 @@ public class FullBlockTestGenerator {
         // (finally) return the created chain
         return ret;
     }
-    
+
+    private byte uniquenessCounter = 0;
     private Block createNextBlock(Block baseBlock, int nextBlockHeight, TransactionOutPointWithValue prevOut,
             BigInteger additionalCoinbaseValue) throws ScriptException {
         Integer height = blockToHeightMap.get(baseBlock.getHash());
@@ -1634,7 +1635,7 @@ public class FullBlockTestGenerator {
             t.addOutput(new TransactionOutput(params, t, BigInteger.valueOf(1),
                     ScriptBuilder.createOutputScript(new ECKey(null, coinbaseOutKeyPubKey)).getProgram()));
             // Spendable output
-            t.addOutput(new TransactionOutput(params, t, BigInteger.ZERO, new byte[] {OP_1}));
+            t.addOutput(new TransactionOutput(params, t, BigInteger.ZERO, new byte[] {OP_1, uniquenessCounter++}));
             addOnlyInputToTransaction(t, prevOut);
             block.addTransaction(t);
             block.solve();

core/src/test/java/com/google/bitcoin/core/WalletTest.java

@@ -19,8 +19,6 @@ package com.google.bitcoin.core;
 
 import com.google.bitcoin.core.Transaction.SigHash;
 import com.google.bitcoin.core.Wallet.SendRequest;
-import com.google.bitcoin.wallet.DefaultCoinSelector;
-import com.google.bitcoin.wallet.RiskAnalysis;
 import com.google.bitcoin.crypto.KeyCrypter;
 import com.google.bitcoin.crypto.KeyCrypterException;
 import com.google.bitcoin.crypto.KeyCrypterScrypt;
@@ -30,9 +28,7 @@ import com.google.bitcoin.utils.MockTransactionBroadcaster;
 import com.google.bitcoin.utils.TestUtils;
 import com.google.bitcoin.utils.TestWithWallet;
 import com.google.bitcoin.utils.Threading;
-import com.google.bitcoin.wallet.KeyTimeCoinSelector;
+import com.google.bitcoin.wallet.*;
-import com.google.bitcoin.wallet.WalletFiles;
-import com.google.bitcoin.wallet.WalletTransaction;
 import com.google.bitcoin.wallet.WalletTransaction.Pool;
 import com.google.common.collect.Lists;
 import com.google.common.util.concurrent.ListenableFuture;
@@ -692,12 +688,12 @@ public class WalletTest extends TestWithWallet {
         final BigInteger value2 = Utils.toNanoCoins(2, 0);
         // Give us three coins and make sure we have some change.
         sendMoneyToWallet(value.add(value2), AbstractBlockChain.NewBlockType.BEST_CHAIN);
-        // The two transactions will have different hashes due to the lack of deterministic signing, but will be
-        // otherwise identical. Once deterministic signatures are implemented, this test will have to be tweaked.
         final Address address = new ECKey().toAddress(params);
         Transaction send1 = checkNotNull(wallet.createSend(address, value2));
         Transaction send2 = checkNotNull(wallet.createSend(address, value2));
-        send1 = roundTripTransaction(params, send1);
+        byte[] buf = send1.bitcoinSerialize();
+        buf[43] = 0;  // Break the signature: bitcoinj won't check in SPV mode and this is easier than other mutations.
+        send1 = new Transaction(params, buf);
         wallet.commitTx(send2);
         wallet.allowSpendingUnconfirmedTransactions();
         assertEquals(value, wallet.getBalance(Wallet.BalanceType.ESTIMATED));

core/src/test/java/com/google/bitcoin/crypto/HDUtilsTest.java

@@ -10,7 +10,6 @@ import org.spongycastle.math.ec.ECCurve;
 import org.spongycastle.math.ec.ECPoint;
 import org.spongycastle.util.encoders.Hex;
 
-import java.math.BigInteger;
 import java.util.Arrays;
 import java.util.List;
 
@@ -126,14 +125,11 @@ public class HDUtilsTest {
         for (String testpkStr : testPubKey) {
             byte[] testpk = Hex.decode(testpkStr);
 
-            BigInteger pubX = new BigInteger(1, Arrays.copyOfRange(testpk, 1, 33));
-            BigInteger pubY = new BigInteger(1, Arrays.copyOfRange(testpk, 33, 65));
-
-            ECPoint ptFlat = curve.createPoint(pubX, pubY, false); // 65
-            ECPoint ptComp = curve.createPoint(pubX, pubY, true);  // 33
-            ECPoint uncompressed = HDUtils.toUncompressed(ptComp);
-            ECPoint recompressed = HDUtils.compressedCopy(uncompressed);
             ECPoint orig = curve.decodePoint(testpk);
+            ECPoint ptFlat = curve.decodePoint(orig.getEncoded(false));
+            ECPoint ptComp = curve.decodePoint(ptFlat.getEncoded(true));
+            ECPoint uncompressed = curve.decodePoint(ptComp.getEncoded(false));
+            ECPoint recompressed = curve.decodePoint(uncompressed.getEncoded(true));
 
             log.info("====================");
             log.info("Flat:              {}", asHexStr(ptFlat));