org.bitcoinj.core.VerificationException Java Examples
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org.bitcoinj.core.VerificationException.
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Example #1
Source File: LevelDBFullPrunedBlockStore.java From GreenBits with GNU General Public License v3.0 | 6 votes |
private void createNewStore(NetworkParameters params) throws BlockStoreException { try { // Set up the genesis block. When we start out fresh, it is by // definition the top of the chain. StoredBlock storedGenesisHeader = new StoredBlock(params.getGenesisBlock().cloneAsHeader(), params.getGenesisBlock().getWork(), 0); // The coinbase in the genesis block is not spendable. This is // because of how the reference client inits // its database - the genesis transaction isn't actually in the db // so its spent flags can never be updated. List<Transaction> genesisTransactions = Lists.newLinkedList(); StoredUndoableBlock storedGenesis = new StoredUndoableBlock(params.getGenesisBlock().getHash(), genesisTransactions); beginDatabaseBatchWrite(); put(storedGenesisHeader, storedGenesis); setChainHead(storedGenesisHeader); setVerifiedChainHead(storedGenesisHeader); batchPut(getKey(KeyType.CREATED), bytes("done")); commitDatabaseBatchWrite(); } catch (VerificationException e) { throw new RuntimeException(e); // Cannot happen. } }
Example #2
Source File: TransactionSignature.java From green_android with GNU General Public License v3.0 | 6 votes |
/** * Returns a decoded signature. * * @param requireCanonicalEncoding if the encoding of the signature must * be canonical. * @param requireCanonicalSValue if the S-value must be canonical (below half * the order of the curve). * @throws RuntimeException if the signature is invalid or unparseable in some way. */ public static TransactionSignature decodeFromBitcoin(byte[] bytes, boolean requireCanonicalEncoding, boolean requireCanonicalSValue) throws VerificationException { // Bitcoin encoding is DER signature + sighash byte. if (requireCanonicalEncoding && !isEncodingCanonical(bytes)) throw new VerificationException("Signature encoding is not canonical."); ECKey.ECDSASignature sig; try { sig = ECKey.ECDSASignature.decodeFromDER(bytes); } catch (IllegalArgumentException e) { throw new VerificationException("Could not decode DER", e); } if (requireCanonicalSValue && !sig.isCanonical()) throw new VerificationException("S-value is not canonical."); // In Bitcoin, any value of the final byte is valid, but not necessarily canonical. See javadocs for // isEncodingCanonical to learn more about this. So we must store the exact byte found. return new TransactionSignature(sig.r, sig.s, bytes[bytes.length - 1]); }
Example #3
Source File: LevelDBFullPrunedBlockStore.java From green_android with GNU General Public License v3.0 | 6 votes |
private void createNewStore(NetworkParameters params) throws BlockStoreException { try { // Set up the genesis block. When we start out fresh, it is by // definition the top of the chain. StoredBlock storedGenesisHeader = new StoredBlock(params.getGenesisBlock().cloneAsHeader(), params.getGenesisBlock().getWork(), 0); // The coinbase in the genesis block is not spendable. This is // because of how the reference client inits // its database - the genesis transaction isn't actually in the db // so its spent flags can never be updated. List<Transaction> genesisTransactions = Lists.newLinkedList(); StoredUndoableBlock storedGenesis = new StoredUndoableBlock(params.getGenesisBlock().getHash(), genesisTransactions); beginDatabaseBatchWrite(); put(storedGenesisHeader, storedGenesis); setChainHead(storedGenesisHeader); setVerifiedChainHead(storedGenesisHeader); batchPut(getKey(KeyType.CREATED), bytes("done")); commitDatabaseBatchWrite(); } catch (VerificationException e) { throw new RuntimeException(e); // Cannot happen. } }
Example #4
Source File: TransactionSignature.java From GreenBits with GNU General Public License v3.0 | 6 votes |
/** * Returns a decoded signature. * * @param requireCanonicalEncoding if the encoding of the signature must * be canonical. * @param requireCanonicalSValue if the S-value must be canonical (below half * the order of the curve). * @throws RuntimeException if the signature is invalid or unparseable in some way. */ public static TransactionSignature decodeFromBitcoin(byte[] bytes, boolean requireCanonicalEncoding, boolean requireCanonicalSValue) throws VerificationException { // Bitcoin encoding is DER signature + sighash byte. if (requireCanonicalEncoding && !isEncodingCanonical(bytes)) throw new VerificationException("Signature encoding is not canonical."); ECKey.ECDSASignature sig; try { sig = ECKey.ECDSASignature.decodeFromDER(bytes); } catch (IllegalArgumentException e) { throw new VerificationException("Could not decode DER", e); } if (requireCanonicalSValue && !sig.isCanonical()) throw new VerificationException("S-value is not canonical."); // In Bitcoin, any value of the final byte is valid, but not necessarily canonical. See javadocs for // isEncodingCanonical to learn more about this. So we must store the exact byte found. return new TransactionSignature(sig.r, sig.s, bytes[bytes.length - 1]); }
Example #5
Source File: LevelDBFullPrunedBlockStore.java From bcm-android with GNU General Public License v3.0 | 6 votes |
private void createNewStore(NetworkParameters params) throws BlockStoreException { try { // Set up the genesis block. When we start out fresh, it is by // definition the top of the chain. StoredBlock storedGenesisHeader = new StoredBlock(params.getGenesisBlock().cloneAsHeader(), params.getGenesisBlock().getWork(), 0); // The coinbase in the genesis block is not spendable. This is // because of how the reference client inits // its database - the genesis transaction isn't actually in the db // so its spent flags can never be updated. List<Transaction> genesisTransactions = Lists.newLinkedList(); StoredUndoableBlock storedGenesis = new StoredUndoableBlock(params.getGenesisBlock().getHash(), genesisTransactions); beginDatabaseBatchWrite(); put(storedGenesisHeader, storedGenesis); setChainHead(storedGenesisHeader); setVerifiedChainHead(storedGenesisHeader); batchPut(getKey(KeyType.CREATED), bytes("done")); commitDatabaseBatchWrite(); } catch (VerificationException e) { throw new RuntimeException(e); // Cannot happen. } }
Example #6
Source File: WalletService.java From bisq with GNU Affero General Public License v3.0 | 6 votes |
/** * @param serializedTransaction The serialized transaction to be added to the wallet * @return The transaction we added to the wallet, which is different as the one we passed as argument! * @throws VerificationException */ public static Transaction maybeAddTxToWallet(byte[] serializedTransaction, Wallet wallet, TransactionConfidence.Source source) throws VerificationException { Transaction tx = new Transaction(wallet.getParams(), serializedTransaction); Transaction walletTransaction = wallet.getTransaction(tx.getHash()); if (walletTransaction == null) { // We need to recreate the transaction otherwise we get a null pointer... tx.getConfidence(Context.get()).setSource(source); //wallet.maybeCommitTx(tx); wallet.receivePending(tx, null, true); return tx; } else { return walletTransaction; } }
Example #7
Source File: TransactionSignature.java From bcm-android with GNU General Public License v3.0 | 6 votes |
/** * Returns a decoded signature. * * @param requireCanonicalEncoding if the encoding of the signature must * be canonical. * @param requireCanonicalSValue if the S-value must be canonical (below half * the order of the curve). * @throws RuntimeException if the signature is invalid or unparseable in some way. */ public static TransactionSignature decodeFromBitcoin(byte[] bytes, boolean requireCanonicalEncoding, boolean requireCanonicalSValue) throws VerificationException { // Bitcoin encoding is DER signature + sighash byte. if (requireCanonicalEncoding && !isEncodingCanonical(bytes)) throw new VerificationException("Signature encoding is not canonical."); ECKey.ECDSASignature sig; try { sig = ECKey.ECDSASignature.decodeFromDER(bytes); } catch (IllegalArgumentException e) { throw new VerificationException("Could not decode DER", e); } if (requireCanonicalSValue && !sig.isCanonical()) throw new VerificationException("S-value is not canonical."); // In Bitcoin, any value of the final byte is valid, but not necessarily canonical. See javadocs for // isEncodingCanonical to learn more about this. So we must store the exact byte found. return new TransactionSignature(sig.r, sig.s, bytes[bytes.length - 1]); }
Example #8
Source File: TestNet3Params.java From bcm-android with GNU General Public License v3.0 | 5 votes |
@Override public void checkDifficultyTransitions(final StoredBlock storedPrev, final Block nextBlock, final BlockStore blockStore) throws VerificationException, BlockStoreException { if (!isDifficultyTransitionPoint(storedPrev.getHeight()) && nextBlock.getTime().after(testnetDiffDate)) { Block prev = storedPrev.getHeader(); // After 15th February 2012 the rules on the testnet change to avoid people running up the difficulty // and then leaving, making it too hard to mine a block. On non-difficulty transition points, easy // blocks are allowed if there has been a span of 20 minutes without one. final long timeDelta = nextBlock.getTimeSeconds() - prev.getTimeSeconds(); // There is an integer underflow bug in bitcoin-qt that means mindiff blocks are accepted when time // goes backwards. if (timeDelta >= 0 && timeDelta <= NetworkParameters.TARGET_SPACING * 2) { // Walk backwards until we find a block that doesn't have the easiest proof of work, then check // that difficulty is equal to that one. StoredBlock cursor = storedPrev; while (!cursor.getHeader().equals(getGenesisBlock()) && cursor.getHeight() % getInterval() != 0 && cursor.getHeader().getDifficultyTargetAsInteger().equals(getMaxTarget())) cursor = cursor.getPrev(blockStore); BigInteger cursorTarget = cursor.getHeader().getDifficultyTargetAsInteger(); BigInteger newTarget = nextBlock.getDifficultyTargetAsInteger(); if (!cursorTarget.equals(newTarget)) throw new VerificationException("Testnet block transition that is not allowed: " + Long.toHexString(cursor.getHeader().getDifficultyTarget()) + " vs " + Long.toHexString(nextBlock.getDifficultyTarget())); } } else { super.checkDifficultyTransitions(storedPrev, nextBlock, blockStore); } }
Example #9
Source File: SPV.java From green_android with GNU General Public License v3.0 | 5 votes |
@Override public boolean notifyTransactionIsInBlock(final Sha256Hash txHash, final StoredBlock block, final BlockChain.NewBlockType blockType, final int relativityOffset) throws VerificationException { Log.d(TAG, "notifyTransactionIsInBlock " + txHash.toString()); return isUnspentOutpoint(txHash); }
Example #10
Source File: SPV.java From green_android with GNU General Public License v3.0 | 5 votes |
@Override public void receiveFromBlock(final Transaction tx, final StoredBlock block, final BlockChain.NewBlockType blockType, final int relativityOffset) throws VerificationException { if (tx == null) throw new RuntimeException("receiveFromBlock got null tx"); Log.d(TAG, "receiveFromBlock " + tx.getHash().toString()); addUtxoToValues(tx.getHash(), true); }
Example #11
Source File: WalletTest.java From bcm-android with GNU General Public License v3.0 | 5 votes |
private void basicSanityChecks(Wallet wallet, Transaction t, Address destination) throws VerificationException { assertEquals("Wrong number of tx inputs", 1, t.getInputs().size()); assertEquals("Wrong number of tx outputs", 2, t.getOutputs().size()); assertEquals(destination, t.getOutput(0).getScriptPubKey().getToAddress(UNITTEST)); assertEquals(wallet.currentChangeAddress(), t.getOutputs().get(1).getScriptPubKey().getToAddress(UNITTEST)); assertEquals(valueOf(0, 50), t.getOutputs().get(1).getValue()); // Check the script runs and signatures verify. t.getInputs().get(0).verify(); }
Example #12
Source File: WalletTest.java From GreenBits with GNU General Public License v3.0 | 5 votes |
private void basicSanityChecks(Wallet wallet, Transaction t, Address destination) throws VerificationException { assertEquals("Wrong number of tx inputs", 1, t.getInputs().size()); assertEquals("Wrong number of tx outputs",2, t.getOutputs().size()); assertEquals(destination, t.getOutput(0).getScriptPubKey().getToAddress(PARAMS)); assertEquals(wallet.currentChangeAddress(), t.getOutputs().get(1).getScriptPubKey().getToAddress(PARAMS)); assertEquals(valueOf(0, 50), t.getOutputs().get(1).getValue()); // Check the script runs and signatures verify. t.getInputs().get(0).verify(); }
Example #13
Source File: WalletTest.java From green_android with GNU General Public License v3.0 | 5 votes |
private void basicSanityChecks(Wallet wallet, Transaction t, Address destination) throws VerificationException { assertEquals("Wrong number of tx inputs", 1, t.getInputs().size()); assertEquals("Wrong number of tx outputs",2, t.getOutputs().size()); assertEquals(destination, t.getOutput(0).getScriptPubKey().getToAddress(PARAMS)); assertEquals(wallet.currentChangeAddress(), t.getOutputs().get(1).getScriptPubKey().getToAddress(PARAMS)); assertEquals(valueOf(0, 50), t.getOutputs().get(1).getValue()); // Check the script runs and signatures verify. t.getInputs().get(0).verify(); }
Example #14
Source File: TradeWalletService.java From bisq-core with GNU Affero General Public License v3.0 | 5 votes |
/** * @param serializedTransaction The serialized transaction to be added to the wallet * @return The transaction we added to the wallet, which is different as the one we passed as argument! * @throws VerificationException */ public Transaction addTxToWallet(byte[] serializedTransaction) throws VerificationException { Log.traceCall(); // We need to recreate the tx otherwise we get a null pointer... Transaction transaction = new Transaction(params, serializedTransaction); transaction.getConfidence(Context.get()).setSource(TransactionConfidence.Source.NETWORK); log.trace("transaction from serializedTransaction: " + transaction.toString()); if (wallet != null) wallet.receivePending(transaction, null, true); return transaction; }
Example #15
Source File: SPV.java From GreenBits with GNU General Public License v3.0 | 5 votes |
@Override public void receiveFromBlock(final Transaction tx, final StoredBlock block, final BlockChain.NewBlockType blockType, final int relativityOffset) throws VerificationException { if (tx == null) throw new RuntimeException("receiveFromBlock got null tx"); getService().notifyObservers(tx.getHash()); }
Example #16
Source File: TradeWalletService.java From bisq-core with GNU Affero General Public License v3.0 | 5 votes |
/** * @param transaction The transaction to be added to the wallet * @return The transaction we added to the wallet, which is different as the one we passed as argument! * @throws VerificationException */ public Transaction addTxToWallet(Transaction transaction) throws VerificationException { Log.traceCall("transaction " + transaction.toString()); // We need to recreate the transaction otherwise we get a null pointer... Transaction result = new Transaction(params, transaction.bitcoinSerialize()); result.getConfidence(Context.get()).setSource(TransactionConfidence.Source.SELF); if (wallet != null) wallet.receivePending(result, null, true); return result; }
Example #17
Source File: SPV.java From GreenBits with GNU General Public License v3.0 | 4 votes |
@Override public boolean notifyTransactionIsInBlock(final Sha256Hash txHash, final StoredBlock block, final BlockChain.NewBlockType blockType, final int relativityOffset) throws VerificationException { getService().notifyObservers(txHash); return isUnspentOutpoint(txHash); }
Example #18
Source File: AbstractBitcoinNetParams.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@Override public void checkDifficultyTransitions(final StoredBlock storedPrev, final Block nextBlock, final BlockStore blockStore) throws VerificationException, BlockStoreException { final Block prev = storedPrev.getHeader(); // Is this supposed to be a difficulty transition point? if (!isDifficultyTransitionPoint(storedPrev.getHeight())) { // No ... so check the difficulty didn't actually change. if (nextBlock.getDifficultyTarget() != prev.getDifficultyTarget()) throw new VerificationException("Unexpected change in difficulty at height " + storedPrev.getHeight() + ": " + Long.toHexString(nextBlock.getDifficultyTarget()) + " vs " + Long.toHexString(prev.getDifficultyTarget())); return; } // We need to find a block far back in the chain. It's OK that this is expensive because it only occurs every // two weeks after the initial block chain download. final Stopwatch watch = Stopwatch.createStarted(); Sha256Hash hash = prev.getHash(); StoredBlock cursor = null; final int interval = this.getInterval(); for (int i = 0; i < interval; i++) { cursor = blockStore.get(hash); if (cursor == null) { // This should never happen. If it does, it means we are following an incorrect or busted chain. throw new VerificationException( "Difficulty transition point but we did not find a way back to the last transition point. Not found: " + hash); } hash = cursor.getHeader().getPrevBlockHash(); } checkState(cursor != null && isDifficultyTransitionPoint(cursor.getHeight() - 1), "Didn't arrive at a transition point."); watch.stop(); if (watch.elapsed(TimeUnit.MILLISECONDS) > 50) log.info("Difficulty transition traversal took {}", watch); Block blockIntervalAgo = cursor.getHeader(); int timespan = (int) (prev.getTimeSeconds() - blockIntervalAgo.getTimeSeconds()); // Limit the adjustment step. final int targetTimespan = this.getTargetTimespan(); if (timespan < targetTimespan / 4) timespan = targetTimespan / 4; if (timespan > targetTimespan * 4) timespan = targetTimespan * 4; BigInteger newTarget = Utils.decodeCompactBits(prev.getDifficultyTarget()); newTarget = newTarget.multiply(BigInteger.valueOf(timespan)); newTarget = newTarget.divide(BigInteger.valueOf(targetTimespan)); if (newTarget.compareTo(this.getMaxTarget()) > 0) { log.info("Difficulty hit proof of work limit: {}", newTarget.toString(16)); newTarget = this.getMaxTarget(); } int accuracyBytes = (int) (nextBlock.getDifficultyTarget() >>> 24) - 3; long receivedTargetCompact = nextBlock.getDifficultyTarget(); // The calculated difficulty is to a higher precision than received, so reduce here. BigInteger mask = BigInteger.valueOf(0xFFFFFFL).shiftLeft(accuracyBytes * 8); newTarget = newTarget.and(mask); long newTargetCompact = Utils.encodeCompactBits(newTarget); if (newTargetCompact != receivedTargetCompact) throw new VerificationException("Network provided difficulty bits do not match what was calculated: " + Long.toHexString(newTargetCompact) + " vs " + Long.toHexString(receivedTargetCompact)); }
Example #19
Source File: Signature.java From balzac with Apache License 2.0 | 4 votes |
public static void isValidAndCanonical(byte[] signature) throws VerificationException, SignatureDecodeException { TransactionSignature.decodeFromBitcoin(signature, true, true); }
Example #20
Source File: WalletService.java From bisq with GNU Affero General Public License v3.0 | 4 votes |
public static Transaction maybeAddNetworkTxToWallet(byte[] serializedTransaction, Wallet wallet) throws VerificationException { return maybeAddTxToWallet(serializedTransaction, wallet, TransactionConfidence.Source.NETWORK); }
Example #21
Source File: AbstractBitcoinNetParams.java From GreenBits with GNU General Public License v3.0 | 4 votes |
@Override public void checkDifficultyTransitions(final StoredBlock storedPrev, final Block nextBlock, final BlockStore blockStore) throws VerificationException, BlockStoreException { final Block prev = storedPrev.getHeader(); // Is this supposed to be a difficulty transition point? if (!isDifficultyTransitionPoint(storedPrev.getHeight())) { // No ... so check the difficulty didn't actually change. if (nextBlock.getDifficultyTarget() != prev.getDifficultyTarget()) throw new VerificationException("Unexpected change in difficulty at height " + storedPrev.getHeight() + ": " + Long.toHexString(nextBlock.getDifficultyTarget()) + " vs " + Long.toHexString(prev.getDifficultyTarget())); return; } // We need to find a block far back in the chain. It's OK that this is expensive because it only occurs every // two weeks after the initial block chain download. final Stopwatch watch = Stopwatch.createStarted(); Sha256Hash hash = prev.getHash(); StoredBlock cursor = null; final int interval = this.getInterval(); for (int i = 0; i < interval; i++) { cursor = blockStore.get(hash); if (cursor == null) { // This should never happen. If it does, it means we are following an incorrect or busted chain. throw new VerificationException( "Difficulty transition point but we did not find a way back to the last transition point. Not found: " + hash); } hash = cursor.getHeader().getPrevBlockHash(); } checkState(cursor != null && isDifficultyTransitionPoint(cursor.getHeight() - 1), "Didn't arrive at a transition point."); watch.stop(); if (watch.elapsed(TimeUnit.MILLISECONDS) > 50) log.info("Difficulty transition traversal took {}", watch); Block blockIntervalAgo = cursor.getHeader(); int timespan = (int) (prev.getTimeSeconds() - blockIntervalAgo.getTimeSeconds()); // Limit the adjustment step. final int targetTimespan = this.getTargetTimespan(); if (timespan < targetTimespan / 4) timespan = targetTimespan / 4; if (timespan > targetTimespan * 4) timespan = targetTimespan * 4; BigInteger newTarget = Utils.decodeCompactBits(prev.getDifficultyTarget()); newTarget = newTarget.multiply(BigInteger.valueOf(timespan)); newTarget = newTarget.divide(BigInteger.valueOf(targetTimespan)); if (newTarget.compareTo(this.getMaxTarget()) > 0) { log.info("Difficulty hit proof of work limit: {}", newTarget.toString(16)); newTarget = this.getMaxTarget(); } int accuracyBytes = (int) (nextBlock.getDifficultyTarget() >>> 24) - 3; long receivedTargetCompact = nextBlock.getDifficultyTarget(); // The calculated difficulty is to a higher precision than received, so reduce here. BigInteger mask = BigInteger.valueOf(0xFFFFFFL).shiftLeft(accuracyBytes * 8); newTarget = newTarget.and(mask); long newTargetCompact = Utils.encodeCompactBits(newTarget); if (newTargetCompact != receivedTargetCompact) throw new VerificationException("Network provided difficulty bits do not match what was calculated: " + Long.toHexString(newTargetCompact) + " vs " + Long.toHexString(receivedTargetCompact)); }
Example #22
Source File: Network.java From cate with MIT License | 4 votes |
protected void onNewBestBlock(StoredBlock block) throws VerificationException { this.blocks.set(block.getHeight()); }
Example #23
Source File: WalletService.java From bisq with GNU Affero General Public License v3.0 | 4 votes |
public static Transaction maybeAddTxToWallet(Transaction transaction, Wallet wallet, TransactionConfidence.Source source) throws VerificationException { return maybeAddTxToWallet(transaction.bitcoinSerialize(), wallet, source); }
Example #24
Source File: NetworkParametersAdapter.java From bisq with GNU Affero General Public License v3.0 | 4 votes |
@Override public void checkDifficultyTransitions(StoredBlock storedPrev, Block next, BlockStore blockStore) throws VerificationException { }
Example #25
Source File: WalletService.java From bisq with GNU Affero General Public License v3.0 | 4 votes |
public static Transaction maybeAddSelfTxToWallet(Transaction transaction, Wallet wallet) throws VerificationException { return maybeAddTxToWallet(transaction, wallet, TransactionConfidence.Source.SELF); }
Example #26
Source File: AbstractBitcoinNetParams.java From green_android with GNU General Public License v3.0 | 4 votes |
@Override public void checkDifficultyTransitions(final StoredBlock storedPrev, final Block nextBlock, final BlockStore blockStore) throws VerificationException, BlockStoreException { final Block prev = storedPrev.getHeader(); // Is this supposed to be a difficulty transition point? if (!isDifficultyTransitionPoint(storedPrev.getHeight())) { // No ... so check the difficulty didn't actually change. if (nextBlock.getDifficultyTarget() != prev.getDifficultyTarget()) throw new VerificationException("Unexpected change in difficulty at height " + storedPrev.getHeight() + ": " + Long.toHexString(nextBlock.getDifficultyTarget()) + " vs " + Long.toHexString(prev.getDifficultyTarget())); return; } // We need to find a block far back in the chain. It's OK that this is expensive because it only occurs every // two weeks after the initial block chain download. final Stopwatch watch = Stopwatch.createStarted(); Sha256Hash hash = prev.getHash(); StoredBlock cursor = null; final int interval = this.getInterval(); for (int i = 0; i < interval; i++) { cursor = blockStore.get(hash); if (cursor == null) { // This should never happen. If it does, it means we are following an incorrect or busted chain. throw new VerificationException( "Difficulty transition point but we did not find a way back to the last transition point. Not found: " + hash); } hash = cursor.getHeader().getPrevBlockHash(); } checkState(cursor != null && isDifficultyTransitionPoint(cursor.getHeight() - 1), "Didn't arrive at a transition point."); watch.stop(); if (watch.elapsed(TimeUnit.MILLISECONDS) > 50) log.info("Difficulty transition traversal took {}", watch); Block blockIntervalAgo = cursor.getHeader(); int timespan = (int) (prev.getTimeSeconds() - blockIntervalAgo.getTimeSeconds()); // Limit the adjustment step. final int targetTimespan = this.getTargetTimespan(); if (timespan < targetTimespan / 4) timespan = targetTimespan / 4; if (timespan > targetTimespan * 4) timespan = targetTimespan * 4; BigInteger newTarget = Utils.decodeCompactBits(prev.getDifficultyTarget()); newTarget = newTarget.multiply(BigInteger.valueOf(timespan)); newTarget = newTarget.divide(BigInteger.valueOf(targetTimespan)); if (newTarget.compareTo(this.getMaxTarget()) > 0) { log.info("Difficulty hit proof of work limit: {}", newTarget.toString(16)); newTarget = this.getMaxTarget(); } int accuracyBytes = (int) (nextBlock.getDifficultyTarget() >>> 24) - 3; long receivedTargetCompact = nextBlock.getDifficultyTarget(); // The calculated difficulty is to a higher precision than received, so reduce here. BigInteger mask = BigInteger.valueOf(0xFFFFFFL).shiftLeft(accuracyBytes * 8); newTarget = newTarget.and(mask); long newTargetCompact = Utils.encodeCompactBits(newTarget); if (newTargetCompact != receivedTargetCompact) throw new VerificationException("Network provided difficulty bits do not match what was calculated: " + Long.toHexString(newTargetCompact) + " vs " + Long.toHexString(receivedTargetCompact)); }
Example #27
Source File: TestWithWallet.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@Nullable protected Transaction sendMoneyToWallet(Wallet wallet, AbstractBlockChain.NewBlockType type, Coin value, Address toAddress) throws VerificationException { return sendMoneyToWallet(wallet, type, createFakeTx(UNITTEST, value, toAddress)); }
Example #28
Source File: TestWithWallet.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@Nullable protected Transaction sendMoneyToWallet(Wallet wallet, AbstractBlockChain.NewBlockType type, Coin value, ECKey toPubKey) throws VerificationException { return sendMoneyToWallet(wallet, type, createFakeTx(UNITTEST, value, toPubKey)); }
Example #29
Source File: TestWithWallet.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@Nullable protected Transaction sendMoneyToWallet(AbstractBlockChain.NewBlockType type, Transaction... transactions) throws VerificationException { return sendMoneyToWallet(this.wallet, type, transactions); }
Example #30
Source File: TestWithWallet.java From bcm-android with GNU General Public License v3.0 | 4 votes |
@Nullable protected Transaction sendMoneyToWallet(AbstractBlockChain.NewBlockType type, Coin value) throws VerificationException { return sendMoneyToWallet(this.wallet, type, value, myAddress); }