Пример #1
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;
        }
    }
}
Пример #2
0
u256 State::enact(bytesConstRef _block, BlockChain const& _bc, bool _checkNonce)
{
	// m_currentBlock is assumed to be prepopulated and reset.

#if !ETH_RELEASE
	BlockInfo bi(_block, _checkNonce);
	assert(m_previousBlock.hash == bi.parentHash);
	assert(m_currentBlock.parentHash == bi.parentHash);
	assert(rootHash() == m_previousBlock.stateRoot);
#endif

	if (m_currentBlock.parentHash != m_previousBlock.hash)
		BOOST_THROW_EXCEPTION(InvalidParentHash());

	// Populate m_currentBlock with the correct values.
	m_currentBlock.populate(_block, _checkNonce);
	m_currentBlock.verifyInternals(_block);

//	cnote << "playback begins:" << m_state.root();
//	cnote << m_state;

	MemoryDB tm;
	GenericTrieDB<MemoryDB> transactionsTrie(&tm);
	transactionsTrie.init();

	MemoryDB rm;
	GenericTrieDB<MemoryDB> receiptsTrie(&rm);
	receiptsTrie.init();

	LastHashes lh = getLastHashes(_bc, (unsigned)m_previousBlock.number);

	// All ok with the block generally. Play back the transactions now...
	unsigned i = 0;
	for (auto const& tr: RLP(_block)[1])
	{
		RLPStream k;
		k << i;

		transactionsTrie.insert(&k.out(), tr.data());
		execute(lh, tr.data());

		RLPStream receiptrlp;
		m_receipts.back().streamRLP(receiptrlp);
		receiptsTrie.insert(&k.out(), &receiptrlp.out());
		++i;
	}

	if (transactionsTrie.root() != m_currentBlock.transactionsRoot)
	{
		cwarn << "Bad transactions state root!";
		BOOST_THROW_EXCEPTION(InvalidTransactionsStateRoot());
	}

	if (receiptsTrie.root() != m_currentBlock.receiptsRoot)
	{
		cwarn << "Bad receipts state root.";
		cwarn << "Block:" << toHex(_block);
		cwarn << "Block RLP:" << RLP(_block);
		cwarn << "Calculated: " << receiptsTrie.root();
		for (unsigned j = 0; j < i; ++j)
		{
			RLPStream k;
			k << j;
			auto b = asBytes(receiptsTrie.at(&k.out()));
			cwarn << j << ": ";
			cwarn << "RLP: " << RLP(b);
			cwarn << "Hex: " << toHex(b);
			cwarn << TransactionReceipt(&b);
		}
		cwarn << "Recorded: " << m_currentBlock.receiptsRoot;
		auto rs = _bc.receipts(m_currentBlock.hash);
		for (unsigned j = 0; j < rs.receipts.size(); ++j)
		{
			auto b = rs.receipts[j].rlp();
			cwarn << j << ": ";
			cwarn << "RLP: " << RLP(b);
			cwarn << "Hex: " << toHex(b);
			cwarn << rs.receipts[j];
		}
		BOOST_THROW_EXCEPTION(InvalidReceiptsStateRoot());
	}

	if (m_currentBlock.logBloom != logBloom())
	{
		cwarn << "Bad log bloom!";
		BOOST_THROW_EXCEPTION(InvalidLogBloom());
	}

	// Initialise total difficulty calculation.
	u256 tdIncrease = m_currentBlock.difficulty;

	// Check uncles & apply their rewards to state.
	set<h256> nonces = { m_currentBlock.nonce };
	Addresses rewarded;
	set<h256> knownUncles = _bc.allUnclesFrom(m_currentBlock.parentHash);
	for (auto const& i: RLP(_block)[2])
	{
		if (knownUncles.count(sha3(i.data())))
			BOOST_THROW_EXCEPTION(UncleInChain(knownUncles, sha3(i.data()) ));

		BlockInfo uncle = BlockInfo::fromHeader(i.data());
		if (nonces.count(uncle.nonce))
			BOOST_THROW_EXCEPTION(DuplicateUncleNonce());

		BlockInfo uncleParent(_bc.block(uncle.parentHash));
		if ((bigint)uncleParent.number < (bigint)m_currentBlock.number - 7)
			BOOST_THROW_EXCEPTION(UncleTooOld());
		uncle.verifyParent(uncleParent);

		nonces.insert(uncle.nonce);
		tdIncrease += uncle.difficulty;
		rewarded.push_back(uncle.coinbaseAddress);
	}
	applyRewards(rewarded);

	// Commit all cached state changes to the state trie.
	commit();

	// Hash the state trie and check against the state_root hash in m_currentBlock.
	if (m_currentBlock.stateRoot != m_previousBlock.stateRoot && m_currentBlock.stateRoot != rootHash())
	{
		cwarn << "Bad state root!";
		cnote << "Given to be:" << m_currentBlock.stateRoot;
		cnote << TrieDB<Address, OverlayDB>(&m_db, m_currentBlock.stateRoot);
		cnote << "Calculated to be:" << rootHash();
		cnote << m_state;
		cnote << *this;
		// Rollback the trie.
		m_db.rollback();
		BOOST_THROW_EXCEPTION(InvalidStateRoot());
	}

	if (m_currentBlock.gasUsed != gasUsed())
	{
		// Rollback the trie.
		m_db.rollback();
		BOOST_THROW_EXCEPTION(InvalidGasUsed() << RequirementError(bigint(gasUsed()), bigint(m_currentBlock.gasUsed)));
	}

	return tdIncrease;
}