/** Gets the median timestamp of the last 11 blocks */ private static long getMedianTimestampOfRecentBlocks(StoredBlock storedBlock, BlockStore store) throws BlockStoreException { long[] timestamps = new long[11]; int unused = 9; timestamps[10] = storedBlock.getHeader().getTimeSeconds(); while (unused >= 0 && (storedBlock = storedBlock.getPrev(store)) != null) timestamps[unused--] = storedBlock.getHeader().getTimeSeconds(); Arrays.sort(timestamps, unused + 1, 11); return timestamps[unused + (11 - unused) / 2]; }
/** * Returns an estimate of when the given block will be reached, assuming a perfect 10 minute * average for each block. This is useful for turning transaction lock times into human readable * times. Note that a height in the past will still be estimated, even though the time of solving * is actually known (we won't scan backwards through the chain to obtain the right answer). */ public Date estimateBlockTime(int height) { synchronized (chainHeadLock) { long offset = height - chainHead.getHeight(); long headTime = chainHead.getHeader().getTimeSeconds(); long estimated = (headTime * 1000) + (1000L * 30L * 1L * offset); // 2 blocks per minute return new Date(estimated); } }
/** Constructs a BlockChain connected to the given list of listeners (eg, wallets) and a store. */ public AbstractBlockChain( Context context, List<BlockChainListener> listeners, BlockStore blockStore) throws BlockStoreException { this.blockStore = blockStore; chainHead = blockStore.getChainHead(); log.info("chain head is at height {}:\n{}", chainHead.getHeight(), chainHead.getHeader()); this.params = context.getParams(); this.listeners = new CopyOnWriteArrayList<ListenerRegistration<BlockChainListener>>(); for (BlockChainListener l : listeners) addListener(l, Threading.SAME_THREAD); }
@Override public void setChainHead(StoredBlock chainHead) throws BlockStoreException { final MappedByteBuffer buffer = this.buffer; if (buffer == null) throw new BlockStoreException("Store closed"); lock.lock(); try { lastChainHead = chainHead; byte[] headHash = chainHead.getHeader().getHash().getBytes(); buffer.position(8); buffer.put(headHash); } finally { lock.unlock(); } }
@Override public void put(StoredBlock block) throws BlockStoreException { final MappedByteBuffer buffer = this.buffer; if (buffer == null) throw new BlockStoreException("Store closed"); lock.lock(); try { int cursor = getRingCursor(buffer); if (cursor == getFileSize()) { // Wrapped around. cursor = FILE_PROLOGUE_BYTES; } buffer.position(cursor); Sha256Hash hash = block.getHeader().getHash(); notFoundCache.remove(hash); buffer.put(hash.getBytes()); block.serializeCompact(buffer); setRingCursor(buffer, buffer.position()); blockCache.put(hash, block); } finally { lock.unlock(); } }
/** * Called as part of connecting a block when the new block results in a different chain having * higher total work. * * <p>if (shouldVerifyTransactions) Either newChainHead needs to be in the block store as a * FullStoredBlock, or (block != null && block.transactions != null) */ private void handleNewBestChain( StoredBlock storedPrev, StoredBlock newChainHead, Block block, boolean expensiveChecks) throws BlockStoreException, VerificationException, PrunedException { checkState(lock.isHeldByCurrentThread()); // This chain has overtaken the one we currently believe is best. Reorganize is required. // // Firstly, calculate the block at which the chain diverged. We only need to examine the // chain from beyond this block to find differences. StoredBlock head = getChainHead(); final StoredBlock splitPoint = findSplit(newChainHead, head, blockStore); log.info("Re-organize after split at height {}", splitPoint.getHeight()); log.info("Old chain head: {}", head.getHeader().getHashAsString()); log.info("New chain head: {}", newChainHead.getHeader().getHashAsString()); log.info("Split at block: {}", splitPoint.getHeader().getHashAsString()); // Then build a list of all blocks in the old part of the chain and the new part. final LinkedList<StoredBlock> oldBlocks = getPartialChain(head, splitPoint, blockStore); final LinkedList<StoredBlock> newBlocks = getPartialChain(newChainHead, splitPoint, blockStore); // Disconnect each transaction in the previous main chain that is no longer in the new main // chain StoredBlock storedNewHead = splitPoint; if (shouldVerifyTransactions()) { for (StoredBlock oldBlock : oldBlocks) { try { disconnectTransactions(oldBlock); } catch (PrunedException e) { // We threw away the data we need to re-org this deep! We need to go back to a peer with // full // block contents and ask them for the relevant data then rebuild the indexs. Or we could // just // give up and ask the human operator to help get us unstuck (eg, rescan from the genesis // block). // TODO: Retry adding this block when we get a block with hash e.getHash() throw e; } } StoredBlock cursor; // Walk in ascending chronological order. for (Iterator<StoredBlock> it = newBlocks.descendingIterator(); it.hasNext(); ) { cursor = it.next(); Block cursorBlock = cursor.getHeader(); if (expensiveChecks && cursorBlock.getTimeSeconds() <= getMedianTimestampOfRecentBlocks(cursor.getPrev(blockStore), blockStore)) throw new VerificationException("Block's timestamp is too early during reorg"); TransactionOutputChanges txOutChanges; if (cursor != newChainHead || block == null) txOutChanges = connectTransactions(cursor); else txOutChanges = connectTransactions(newChainHead.getHeight(), block); storedNewHead = addToBlockStore(storedNewHead, cursorBlock.cloneAsHeader(), txOutChanges); } } else { // (Finally) write block to block store storedNewHead = addToBlockStore(storedPrev, newChainHead.getHeader()); } // Now inform the listeners. This is necessary so the set of currently active transactions (that // we can spend) // can be updated to take into account the re-organize. We might also have received new coins we // didn't have // before and our previous spends might have been undone. for (final ListenerRegistration<BlockChainListener> registration : listeners) { if (registration.executor == Threading.SAME_THREAD) { // Short circuit the executor so we can propagate any exceptions. // TODO: Do we really need to do this or should it be irrelevant? registration.listener.reorganize(splitPoint, oldBlocks, newBlocks); } else { registration.executor.execute( new Runnable() { @Override public void run() { try { registration.listener.reorganize(splitPoint, oldBlocks, newBlocks); } catch (VerificationException e) { log.error("Block chain listener threw exception during reorg", e); } } }); } } // Update the pointer to the best known block. setChainHead(storedNewHead); }
// expensiveChecks enables checks that require looking at blocks further back in the chain // than the previous one when connecting (eg median timestamp check) // It could be exposed, but for now we just set it to shouldVerifyTransactions() private void connectBlock( final Block block, StoredBlock storedPrev, boolean expensiveChecks, @Nullable final List<Sha256Hash> filteredTxHashList, @Nullable final Map<Sha256Hash, Transaction> filteredTxn) throws BlockStoreException, VerificationException, PrunedException { checkState(lock.isHeldByCurrentThread()); boolean filtered = filteredTxHashList != null && filteredTxn != null; // Check that we aren't connecting a block that fails a checkpoint check if (!params.passesCheckpoint(storedPrev.getHeight() + 1, block.getHash())) throw new VerificationException( "Block failed checkpoint lockin at " + (storedPrev.getHeight() + 1)); if (shouldVerifyTransactions()) { checkNotNull(block.transactions); for (Transaction tx : block.transactions) if (!tx.isFinal(storedPrev.getHeight() + 1, block.getTimeSeconds())) throw new VerificationException("Block contains non-final transaction"); } StoredBlock head = getChainHead(); if (storedPrev.equals(head)) { if (filtered && filteredTxn.size() > 0) { log.debug( "Block {} connects to top of best chain with {} transaction(s) of which we were sent {}", block.getHashAsString(), filteredTxHashList.size(), filteredTxn.size()); for (Sha256Hash hash : filteredTxHashList) log.debug(" matched tx {}", hash); } if (expensiveChecks && block.getTimeSeconds() <= getMedianTimestampOfRecentBlocks(head, blockStore)) throw new VerificationException("Block's timestamp is too early"); // This block connects to the best known block, it is a normal continuation of the system. TransactionOutputChanges txOutChanges = null; if (shouldVerifyTransactions()) txOutChanges = connectTransactions(storedPrev.getHeight() + 1, block); StoredBlock newStoredBlock = addToBlockStore( storedPrev, block.transactions == null ? block : block.cloneAsHeader(), txOutChanges); setChainHead(newStoredBlock); log.debug("Chain is now {} blocks high, running listeners", newStoredBlock.getHeight()); informListenersForNewBlock( block, NewBlockType.BEST_CHAIN, filteredTxHashList, filteredTxn, newStoredBlock); } else { // This block connects to somewhere other than the top of the best known chain. We treat these // differently. // // Note that we send the transactions to the wallet FIRST, even if we're about to re-organize // this block // to become the new best chain head. This simplifies handling of the re-org in the Wallet // class. StoredBlock newBlock = storedPrev.build(block); boolean haveNewBestChain = newBlock.moreWorkThan(head); if (haveNewBestChain) { log.info("Block is causing a re-organize"); } else { StoredBlock splitPoint = findSplit(newBlock, head, blockStore); if (splitPoint != null && splitPoint.equals(newBlock)) { // newStoredBlock is a part of the same chain, there's no fork. This happens when we // receive a block // that we already saw and linked into the chain previously, which isn't the chain head. // Re-processing it is confusing for the wallet so just skip. log.warn( "Saw duplicated block in main chain at height {}: {}", newBlock.getHeight(), newBlock.getHeader().getHash()); return; } if (splitPoint == null) { // This should absolutely never happen // (lets not write the full block to disk to keep any bugs which allow this to happen // from writing unreasonable amounts of data to disk) throw new VerificationException("Block forks the chain but splitPoint is null"); } else { // We aren't actually spending any transactions (yet) because we are on a fork addToBlockStore(storedPrev, block); int splitPointHeight = splitPoint.getHeight(); String splitPointHash = splitPoint.getHeader().getHashAsString(); log.info( "Block forks the chain at height {}/block {}, but it did not cause a reorganize:\n{}", splitPointHeight, splitPointHash, newBlock.getHeader().getHashAsString()); } } // We may not have any transactions if we received only a header, which can happen during fast // catchup. // If we do, send them to the wallet but state that they are on a side chain so it knows not // to try and // spend them until they become activated. if (block.transactions != null || filtered) { informListenersForNewBlock( block, NewBlockType.SIDE_CHAIN, filteredTxHashList, filteredTxn, newBlock); } if (haveNewBestChain) handleNewBestChain(storedPrev, newBlock, block, expensiveChecks); } }