Exemplo n.º 1
0
bool Block::sync(BlockChain const& _bc, h256 const& _block, BlockInfo const& _bi)
{
	bool ret = false;
	// BLOCK
	BlockInfo bi = _bi ? _bi : _bc.info(_block);
#if ETH_PARANOIA
	if (!bi)
		while (1)
		{
			try
			{
				auto b = _bc.block(_block);
				bi.populate(b);
				break;
			}
			catch (Exception const& _e)
			{
				// TODO: Slightly nicer handling? :-)
				cerr << "ERROR: Corrupt block-chain! Delete your block-chain DB and restart." << endl;
				cerr << diagnostic_information(_e) << endl;
			}
			catch (std::exception const& _e)
			{
				// TODO: Slightly nicer handling? :-)
				cerr << "ERROR: Corrupt block-chain! Delete your block-chain DB and restart." << endl;
				cerr << _e.what() << endl;
			}
		}
#endif
	if (bi == m_currentBlock)
	{
		// We mined the last block.
		// Our state is good - we just need to move on to next.
		m_previousBlock = m_currentBlock;
		resetCurrent();
		ret = true;
	}
	else if (bi == m_previousBlock)
	{
		// No change since last sync.
		// Carry on as we were.
	}
	else
	{
		// New blocks available, or we've switched to a different branch. All change.
		// Find most recent state dump and replay what's left.
		// (Most recent state dump might end up being genesis.)

		if (m_state.db().lookup(bi.stateRoot()).empty())	// TODO: API in State for this?
		{
			cwarn << "Unable to sync to" << bi.hash() << "; state root" << bi.stateRoot() << "not found in database.";
			cwarn << "Database corrupt: contains block without stateRoot:" << bi;
			cwarn << "Try rescuing the database by running: eth --rescue";
			BOOST_THROW_EXCEPTION(InvalidStateRoot() << errinfo_target(bi.stateRoot()));
		}
		m_previousBlock = bi;
		resetCurrent();
		ret = true;
	}
#if ALLOW_REBUILD
	else
	{
Exemplo n.º 2
0
bool State::sync(BlockChain const& _bc, h256 _block, BlockInfo const& _bi, ImportRequirements::value _ir)
{
	(void)_ir;
	bool ret = false;
	// BLOCK
	BlockInfo bi = _bi ? _bi : _bc.info(_block);
/*	if (!bi)
		while (1)
		{
			try
			{
				auto b = _bc.block(_block);
				bi.populate(b);
//				bi.verifyInternals(_bc.block(_block));	// Unneeded - we already verify on import into the blockchain.
				break;
			}
			catch (Exception const& _e)
			{
				// TODO: Slightly nicer handling? :-)
				cerr << "ERROR: Corrupt block-chain! Delete your block-chain DB and restart." << endl;
				cerr << diagnostic_information(_e) << endl;
			}
			catch (std::exception const& _e)
			{
				// TODO: Slightly nicer handling? :-)
				cerr << "ERROR: Corrupt block-chain! Delete your block-chain DB and restart." << endl;
				cerr << _e.what() << endl;
			}
		}*/
	if (bi == m_currentBlock)
	{
		// We mined the last block.
		// Our state is good - we just need to move on to next.
		m_previousBlock = m_currentBlock;
		resetCurrent();
		ret = true;
	}
	else if (bi == m_previousBlock)
	{
		// No change since last sync.
		// Carry on as we were.
	}
	else
	{
		// New blocks available, or we've switched to a different branch. All change.
		// Find most recent state dump and replay what's left.
		// (Most recent state dump might end up being genesis.)

		if (m_db.lookup(bi.stateRoot).empty())
		{
			cwarn << "Unable to sync to" << bi.hash() << "; state root" << bi.stateRoot << "not found in database.";
			cwarn << "Database corrupt: contains block without stateRoot:" << bi;
			cwarn << "Bailing.";
			exit(-1);
		}
		m_previousBlock = bi;
		resetCurrent();
		ret = true;
	}
#if ALLOW_REBUILD
	else
	{
Exemplo n.º 3
0
Executive::Executive(State& _s, BlockChain const& _bc, unsigned _number, unsigned _level):
	m_s(_s),
	m_envInfo(_bc.info(_bc.numberHash(_number)), _bc.lastHashes(_number - 1)),
	m_depth(_level)
{}
Exemplo n.º 4
0
void BasicGasPricer::update(BlockChain const &_bc)
{
    unsigned c = 0;
    h256 p = _bc.currentHash();
    m_gasPerBlock = _bc.info(p).gasLimit();

    map<u256, u256> dist;
    u256 total = 0;

    // make gasPrice versus gasUsed distribution for the last 1000 blocks
    while (c < 1000 && p)
    {
        BlockHeader bi = _bc.info(p);
        if (bi.transactionsRoot() != EmptyTrie)
        {
            auto bb = _bc.block(p);
            RLP r(bb);
            BlockReceipts brs(_bc.receipts(bi.hash()));
            size_t i = 0;
            for (auto const &tr: r[1])
            {
                Transaction tx(tr.data(), CheckTransaction::None);
                u256 gu = brs.receipts[i].gasUsed();
                dist[tx.gasPrice()] += gu;
                total += gu;
                i++;
            }
        }
        p = bi.parentHash();
        ++c;
    }

    // fill m_octiles with weighted gasPrices
    if (total > 0)
    {
        m_octiles[0] = dist.begin()->first;

        // calc mean
        u256 mean = 0;
        for (auto const &i: dist)
            mean += i.first * i.second;
        mean /= total;

        // calc standard deviation
        u256 sdSquared = 0;
        for (auto const &i: dist)
            sdSquared += i.second * (i.first - mean) * (i.first - mean);
        sdSquared /= total;

        if (sdSquared)
        {
            long double sd = sqrt(sdSquared.convert_to<long double>());
            long double normalizedSd = sd / mean.convert_to<long double>();

            // calc octiles normalized to gaussian distribution
            boost::math::normal gauss(1.0, (normalizedSd > 0.01) ? normalizedSd : 0.01);
            for (size_t i = 1; i < 8; i++)
                m_octiles[i] = u256(mean.convert_to<long double>() * boost::math::quantile(gauss, i / 8.0));
            m_octiles[8] = dist.rbegin()->first;
        } else
        {
            for (size_t i = 0; i < 9; i++)
                m_octiles[i] = (i + 1) * mean / 5;
        }
    }
}