Java Code Examples for org.bitcoinj.core.ECKey#setCreationTimeSeconds()
The following examples show how to use
org.bitcoinj.core.ECKey#setCreationTimeSeconds() .
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Example 1
Source File: KeyChainGroupTest.java From bcm-android with GNU General Public License v3.0 | 6 votes |
@Test public void earliestKeyTime() throws Exception { long now = Utils.currentTimeSeconds(); // mock long yesterday = now - 86400; assertEquals(now, group.getEarliestKeyCreationTime()); Utils.rollMockClock(10000); group.freshKey(KeyChain.KeyPurpose.RECEIVE_FUNDS); Utils.rollMockClock(10000); group.freshKey(KeyChain.KeyPurpose.RECEIVE_FUNDS); // Check that all keys are assumed to be created at the same instant the seed is. assertEquals(now, group.getEarliestKeyCreationTime()); ECKey key = new ECKey(); key.setCreationTimeSeconds(yesterday); group.importKeys(key); assertEquals(yesterday, group.getEarliestKeyCreationTime()); }
Example 2
Source File: BasicKeyChain.java From bcm-android with GNU General Public License v3.0 | 5 votes |
private void deserializeFromProtobuf(List<Protos.Key> keys) throws UnreadableWalletException { lock.lock(); try { checkState(hashToKeys.isEmpty(), "Tried to deserialize into a non-empty chain"); for (Protos.Key key : keys) { if (key.getType() != Protos.Key.Type.ORIGINAL && key.getType() != Protos.Key.Type.ENCRYPTED_SCRYPT_AES) continue; boolean encrypted = key.getType() == Protos.Key.Type.ENCRYPTED_SCRYPT_AES; byte[] priv = key.hasSecretBytes() ? key.getSecretBytes().toByteArray() : null; if (!key.hasPublicKey()) throw new UnreadableWalletException("Public key missing"); byte[] pub = key.getPublicKey().toByteArray(); ECKey ecKey; if (encrypted) { checkState(keyCrypter != null, "This wallet is encrypted but encrypt() was not called prior to deserialization"); if (!key.hasEncryptedData()) throw new UnreadableWalletException("Encrypted private key data missing"); Protos.EncryptedData proto = key.getEncryptedData(); EncryptedData e = new EncryptedData(proto.getInitialisationVector().toByteArray(), proto.getEncryptedPrivateKey().toByteArray()); ecKey = ECKey.fromEncrypted(e, keyCrypter, pub); } else { if (priv != null) ecKey = ECKey.fromPrivateAndPrecalculatedPublic(priv, pub); else ecKey = ECKey.fromPublicOnly(pub); } ecKey.setCreationTimeSeconds(key.getCreationTimestamp() / 1000); importKeyLocked(ecKey); } } finally { lock.unlock(); } }
Example 3
Source File: BasicKeyChain.java From green_android with GNU General Public License v3.0 | 5 votes |
private void deserializeFromProtobuf(List<Protos.Key> keys) throws UnreadableWalletException { lock.lock(); try { checkState(hashToKeys.isEmpty(), "Tried to deserialize into a non-empty chain"); for (Protos.Key key : keys) { if (key.getType() != Protos.Key.Type.ORIGINAL && key.getType() != Protos.Key.Type.ENCRYPTED_SCRYPT_AES) continue; boolean encrypted = key.getType() == Protos.Key.Type.ENCRYPTED_SCRYPT_AES; byte[] priv = key.hasSecretBytes() ? key.getSecretBytes().toByteArray() : null; if (!key.hasPublicKey()) throw new UnreadableWalletException("Public key missing"); byte[] pub = key.getPublicKey().toByteArray(); ECKey ecKey; if (encrypted) { checkState(keyCrypter != null, "This wallet is encrypted but encrypt() was not called prior to deserialization"); if (!key.hasEncryptedData()) throw new UnreadableWalletException("Encrypted private key data missing"); Protos.EncryptedData proto = key.getEncryptedData(); EncryptedData e = new EncryptedData(proto.getInitialisationVector().toByteArray(), proto.getEncryptedPrivateKey().toByteArray()); ecKey = ECKey.fromEncrypted(e, keyCrypter, pub); } else { if (priv != null) ecKey = ECKey.fromPrivateAndPrecalculatedPublic(priv, pub); else ecKey = ECKey.fromPublicOnly(pub); } ecKey.setCreationTimeSeconds(key.getCreationTimestamp() / 1000); importKeyLocked(ecKey); } } finally { lock.unlock(); } }
Example 4
Source File: BasicKeyChain.java From GreenBits with GNU General Public License v3.0 | 5 votes |
private void deserializeFromProtobuf(List<Protos.Key> keys) throws UnreadableWalletException { lock.lock(); try { checkState(hashToKeys.isEmpty(), "Tried to deserialize into a non-empty chain"); for (Protos.Key key : keys) { if (key.getType() != Protos.Key.Type.ORIGINAL && key.getType() != Protos.Key.Type.ENCRYPTED_SCRYPT_AES) continue; boolean encrypted = key.getType() == Protos.Key.Type.ENCRYPTED_SCRYPT_AES; byte[] priv = key.hasSecretBytes() ? key.getSecretBytes().toByteArray() : null; if (!key.hasPublicKey()) throw new UnreadableWalletException("Public key missing"); byte[] pub = key.getPublicKey().toByteArray(); ECKey ecKey; if (encrypted) { checkState(keyCrypter != null, "This wallet is encrypted but encrypt() was not called prior to deserialization"); if (!key.hasEncryptedData()) throw new UnreadableWalletException("Encrypted private key data missing"); Protos.EncryptedData proto = key.getEncryptedData(); EncryptedData e = new EncryptedData(proto.getInitialisationVector().toByteArray(), proto.getEncryptedPrivateKey().toByteArray()); ecKey = ECKey.fromEncrypted(e, keyCrypter, pub); } else { if (priv != null) ecKey = ECKey.fromPrivateAndPrecalculatedPublic(priv, pub); else ecKey = ECKey.fromPublicOnly(pub); } ecKey.setCreationTimeSeconds(key.getCreationTimestamp() / 1000); importKeyLocked(ecKey); } } finally { lock.unlock(); } }
Example 5
Source File: WalletTest.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@Test public void keyRotationRandom() throws Exception { Utils.setMockClock(); // Start with an empty wallet (no HD chain). wallet = new Wallet(UNITTEST); // Watch out for wallet-initiated broadcasts. MockTransactionBroadcaster broadcaster = new MockTransactionBroadcaster(wallet); // Send three cents to two different random keys, then add a key and mark the initial keys as compromised. ECKey key1 = new ECKey(); key1.setCreationTimeSeconds(Utils.currentTimeSeconds() - (86400 * 2)); ECKey key2 = new ECKey(); key2.setCreationTimeSeconds(Utils.currentTimeSeconds() - 86400); wallet.importKey(key1); wallet.importKey(key2); sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, LegacyAddress.fromKey(UNITTEST, key1)); sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, LegacyAddress.fromKey(UNITTEST, key2)); sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, LegacyAddress.fromKey(UNITTEST, key2)); Date compromiseTime = Utils.now(); assertEquals(0, broadcaster.size()); assertFalse(wallet.isKeyRotating(key1)); // We got compromised! Utils.rollMockClock(1); wallet.setKeyRotationTime(compromiseTime); assertTrue(wallet.isKeyRotating(key1)); wallet.doMaintenance(null, true); Transaction tx = broadcaster.waitForTransactionAndSucceed(); final Coin THREE_CENTS = CENT.add(CENT).add(CENT); assertEquals(Coin.valueOf(49100), tx.getFee()); assertEquals(THREE_CENTS, tx.getValueSentFromMe(wallet)); assertEquals(THREE_CENTS.subtract(tx.getFee()), tx.getValueSentToMe(wallet)); // TX sends to one of our addresses (for now we ignore married wallets). final Address toAddress = tx.getOutput(0).getScriptPubKey().getToAddress(UNITTEST); final ECKey rotatingToKey = wallet.findKeyFromPubHash(toAddress.getHash()); assertNotNull(rotatingToKey); assertFalse(wallet.isKeyRotating(rotatingToKey)); assertEquals(3, tx.getInputs().size()); // It confirms. sendMoneyToWallet(AbstractBlockChain.NewBlockType.BEST_CHAIN, tx); // Now receive some more money to the newly derived address via a new block and check that nothing happens. sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, toAddress); assertTrue(wallet.doMaintenance(null, true).get().isEmpty()); assertEquals(0, broadcaster.size()); // Receive money via a new block on key1 and ensure it shows up as a maintenance task. sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, LegacyAddress.fromKey(UNITTEST, key1)); wallet.doMaintenance(null, true); tx = broadcaster.waitForTransactionAndSucceed(); assertNotNull(wallet.findKeyFromPubHash(tx.getOutput(0).getScriptPubKey().getPubKeyHash())); log.info("Unexpected thing: {}", tx); assertEquals(Coin.valueOf(19300), tx.getFee()); assertEquals(1, tx.getInputs().size()); assertEquals(1, tx.getOutputs().size()); assertEquals(CENT, tx.getValueSentFromMe(wallet)); assertEquals(CENT.subtract(tx.getFee()), tx.getValueSentToMe(wallet)); assertEquals(Transaction.Purpose.KEY_ROTATION, tx.getPurpose()); // We don't attempt to race an attacker against unconfirmed transactions. // Now round-trip the wallet and check the protobufs are storing the data correctly. wallet = roundTrip(wallet); tx = wallet.getTransaction(tx.getHash()); checkNotNull(tx); assertEquals(Transaction.Purpose.KEY_ROTATION, tx.getPurpose()); // Have to divide here to avoid mismatch due to second-level precision in serialisation. assertEquals(compromiseTime.getTime() / 1000, wallet.getKeyRotationTime().getTime() / 1000); // Make a normal spend and check it's all ok. wallet.sendCoins(broadcaster, OTHER_ADDRESS, wallet.getBalance()); tx = broadcaster.waitForTransaction(); assertArrayEquals(OTHER_ADDRESS.getHash(), tx.getOutput(0).getScriptPubKey().getPubKeyHash()); }
Example 6
Source File: WalletTest.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@SuppressWarnings("ConstantConditions") @Test public void keyRotationHD2() throws Exception { // Check we handle the following scenario: a weak random key is created, then some good random keys are created // but the weakness of the first isn't known yet. The wallet is upgraded to HD based on the weak key. Later, we // find out about the weakness and set the rotation time to after the bad key's creation date. A new HD chain // should be created based on the oldest known good key and the old chain + bad random key should rotate to it. // We fix the private keys just to make the test deterministic (last byte differs). Utils.setMockClock(); ECKey badKey = ECKey.fromPrivate(Utils.HEX.decode("00905b93f990267f4104f316261fc10f9f983551f9ef160854f40102eb71cffdbb")); badKey.setCreationTimeSeconds(Utils.currentTimeSeconds()); Utils.rollMockClock(86400); ECKey goodKey = ECKey.fromPrivate(Utils.HEX.decode("00905b93f990267f4104f316261fc10f9f983551f9ef160854f40102eb71cffdcc")); goodKey.setCreationTimeSeconds(Utils.currentTimeSeconds()); // Do an upgrade based on the bad key. final AtomicReference<List<DeterministicKeyChain>> fChains = new AtomicReference<>(); KeyChainGroup kcg = new KeyChainGroup(UNITTEST) { { fChains.set(chains); } }; kcg.importKeys(badKey, goodKey); Utils.rollMockClock(86400); wallet = new Wallet(UNITTEST, kcg); // This avoids the automatic HD initialisation assertTrue(fChains.get().isEmpty()); wallet.upgradeToDeterministic(null); DeterministicKey badWatchingKey = wallet.getWatchingKey(); assertEquals(badKey.getCreationTimeSeconds(), badWatchingKey.getCreationTimeSeconds()); sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, LegacyAddress.fromKey(UNITTEST, badWatchingKey)); // Now we set the rotation time to the time we started making good keys. This should create a new HD chain. wallet.setKeyRotationTime(goodKey.getCreationTimeSeconds()); List<Transaction> txns = wallet.doMaintenance(null, false).get(); assertEquals(1, txns.size()); Address output = txns.get(0).getOutput(0).getScriptPubKey().getToAddress(UNITTEST); ECKey usedKey = wallet.findKeyFromPubHash(output.getHash()); assertEquals(goodKey.getCreationTimeSeconds(), usedKey.getCreationTimeSeconds()); assertEquals(goodKey.getCreationTimeSeconds(), wallet.freshReceiveKey().getCreationTimeSeconds()); assertEquals("mrM3TpCnav5YQuVA1xLercCGJH4DXujMtv", LegacyAddress.fromKey(UNITTEST, usedKey).toString()); DeterministicKeyChain c = fChains.get().get(1); assertEquals(c.getEarliestKeyCreationTime(), goodKey.getCreationTimeSeconds()); assertEquals(2, fChains.get().size()); // Commit the maint txns. wallet.commitTx(txns.get(0)); // Check next maintenance does nothing. assertTrue(wallet.doMaintenance(null, false).get().isEmpty()); assertEquals(c, fChains.get().get(1)); assertEquals(2, fChains.get().size()); }
Example 7
Source File: WalletTest.java From green_android with GNU General Public License v3.0 | 4 votes |
@SuppressWarnings("ConstantConditions") @Test public void keyRotationHD2() throws Exception { // Check we handle the following scenario: a weak random key is created, then some good random keys are created // but the weakness of the first isn't known yet. The wallet is upgraded to HD based on the weak key. Later, we // find out about the weakness and set the rotation time to after the bad key's creation date. A new HD chain // should be created based on the oldest known good key and the old chain + bad random key should rotate to it. // We fix the private keys just to make the test deterministic (last byte differs). Utils.setMockClock(); ECKey badKey = ECKey.fromPrivate(Utils.HEX.decode("00905b93f990267f4104f316261fc10f9f983551f9ef160854f40102eb71cffdbb")); badKey.setCreationTimeSeconds(Utils.currentTimeSeconds()); Utils.rollMockClock(86400); ECKey goodKey = ECKey.fromPrivate(Utils.HEX.decode("00905b93f990267f4104f316261fc10f9f983551f9ef160854f40102eb71cffdcc")); goodKey.setCreationTimeSeconds(Utils.currentTimeSeconds()); // Do an upgrade based on the bad key. final AtomicReference<List<DeterministicKeyChain>> fChains = new AtomicReference<>(); KeyChainGroup kcg = new KeyChainGroup(PARAMS) { { fChains.set(chains); } }; kcg.importKeys(badKey, goodKey); Utils.rollMockClock(86400); wallet = new Wallet(PARAMS, kcg); // This avoids the automatic HD initialisation assertTrue(fChains.get().isEmpty()); wallet.upgradeToDeterministic(null); DeterministicKey badWatchingKey = wallet.getWatchingKey(); assertEquals(badKey.getCreationTimeSeconds(), badWatchingKey.getCreationTimeSeconds()); sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, badWatchingKey.toAddress(PARAMS)); // Now we set the rotation time to the time we started making good keys. This should create a new HD chain. wallet.setKeyRotationTime(goodKey.getCreationTimeSeconds()); List<Transaction> txns = wallet.doMaintenance(null, false).get(); assertEquals(1, txns.size()); Address output = txns.get(0).getOutput(0).getAddressFromP2PKHScript(PARAMS); ECKey usedKey = wallet.findKeyFromPubHash(output.getHash160()); assertEquals(goodKey.getCreationTimeSeconds(), usedKey.getCreationTimeSeconds()); assertEquals(goodKey.getCreationTimeSeconds(), wallet.freshReceiveKey().getCreationTimeSeconds()); assertEquals("mrM3TpCnav5YQuVA1xLercCGJH4DXujMtv", usedKey.toAddress(PARAMS).toString()); DeterministicKeyChain c = fChains.get().get(1); assertEquals(c.getEarliestKeyCreationTime(), goodKey.getCreationTimeSeconds()); assertEquals(2, fChains.get().size()); // Commit the maint txns. wallet.commitTx(txns.get(0)); // Check next maintenance does nothing. assertTrue(wallet.doMaintenance(null, false).get().isEmpty()); assertEquals(c, fChains.get().get(1)); assertEquals(2, fChains.get().size()); }
Example 8
Source File: WalletTest.java From GreenBits with GNU General Public License v3.0 | 4 votes |
@SuppressWarnings("ConstantConditions") @Test public void keyRotationHD2() throws Exception { // Check we handle the following scenario: a weak random key is created, then some good random keys are created // but the weakness of the first isn't known yet. The wallet is upgraded to HD based on the weak key. Later, we // find out about the weakness and set the rotation time to after the bad key's creation date. A new HD chain // should be created based on the oldest known good key and the old chain + bad random key should rotate to it. // We fix the private keys just to make the test deterministic (last byte differs). Utils.setMockClock(); ECKey badKey = ECKey.fromPrivate(Utils.HEX.decode("00905b93f990267f4104f316261fc10f9f983551f9ef160854f40102eb71cffdbb")); badKey.setCreationTimeSeconds(Utils.currentTimeSeconds()); Utils.rollMockClock(86400); ECKey goodKey = ECKey.fromPrivate(Utils.HEX.decode("00905b93f990267f4104f316261fc10f9f983551f9ef160854f40102eb71cffdcc")); goodKey.setCreationTimeSeconds(Utils.currentTimeSeconds()); // Do an upgrade based on the bad key. final AtomicReference<List<DeterministicKeyChain>> fChains = new AtomicReference<>(); KeyChainGroup kcg = new KeyChainGroup(PARAMS) { { fChains.set(chains); } }; kcg.importKeys(badKey, goodKey); Utils.rollMockClock(86400); wallet = new Wallet(PARAMS, kcg); // This avoids the automatic HD initialisation assertTrue(fChains.get().isEmpty()); wallet.upgradeToDeterministic(null); DeterministicKey badWatchingKey = wallet.getWatchingKey(); assertEquals(badKey.getCreationTimeSeconds(), badWatchingKey.getCreationTimeSeconds()); sendMoneyToWallet(wallet, AbstractBlockChain.NewBlockType.BEST_CHAIN, CENT, badWatchingKey.toAddress(PARAMS)); // Now we set the rotation time to the time we started making good keys. This should create a new HD chain. wallet.setKeyRotationTime(goodKey.getCreationTimeSeconds()); List<Transaction> txns = wallet.doMaintenance(null, false).get(); assertEquals(1, txns.size()); Address output = txns.get(0).getOutput(0).getAddressFromP2PKHScript(PARAMS); ECKey usedKey = wallet.findKeyFromPubHash(output.getHash160()); assertEquals(goodKey.getCreationTimeSeconds(), usedKey.getCreationTimeSeconds()); assertEquals(goodKey.getCreationTimeSeconds(), wallet.freshReceiveKey().getCreationTimeSeconds()); assertEquals("mrM3TpCnav5YQuVA1xLercCGJH4DXujMtv", usedKey.toAddress(PARAMS).toString()); DeterministicKeyChain c = fChains.get().get(1); assertEquals(c.getEarliestKeyCreationTime(), goodKey.getCreationTimeSeconds()); assertEquals(2, fChains.get().size()); // Commit the maint txns. wallet.commitTx(txns.get(0)); // Check next maintenance does nothing. assertTrue(wallet.doMaintenance(null, false).get().isEmpty()); assertEquals(c, fChains.get().get(1)); assertEquals(2, fChains.get().size()); }