/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file BlockChain.h * @author Gav Wood * @date 2014 */ #pragma once #pragma warning(push) #pragma warning(disable: 4100 4267) #include #pragma warning(pop) #include #include #include #include #include #include #include #include #include "BlockDetails.h" #include "Account.h" #include "Transaction.h" #include "BlockQueue.h" namespace ldb = leveldb; namespace dev { class OverlayDB; namespace eth { static const h256s NullH256s; class State; struct AlreadyHaveBlock: virtual Exception {}; struct UnknownParent: virtual Exception {}; struct FutureTime: virtual Exception {}; struct BlockChainChat: public LogChannel { static const char* name() { return "-B-"; } static const int verbosity = 7; }; struct BlockChainNote: public LogChannel { static const char* name() { return "=B="; } static const int verbosity = 4; }; struct BlockChainWarn: public LogChannel { static const char* name() { return "=B="; } static const int verbosity = 1; }; // TODO: Move all this Genesis stuff into Genesis.h/.cpp std::map const& genesisState(); ldb::Slice toSlice(h256 const& _h, unsigned _sub = 0); using BlocksHash = std::map; using TransactionHashes = h256s; using UncleHashes = h256s; enum { ExtraDetails = 0, ExtraBlockHash, ExtraTransactionAddress, ExtraLogBlooms, ExtraReceipts, ExtraBlocksBlooms }; using ProgressCallback = std::function; /** * @brief Implements the blockchain database. All data this gives is disk-backed. * @threadsafe * @todo Make not memory hog (should actually act as a cache and deallocate old entries). */ class BlockChain { public: BlockChain(bytes const& _genesisBlock, std::string _path, WithExisting _we, ProgressCallback const& _p = ProgressCallback()); ~BlockChain(); /// Attempt a database re-open. void reopen(std::string const& _path, WithExisting _we = WithExisting::Trust) { close(); open(_path, _we); } /// (Potentially) renders invalid existing bytesConstRef returned by lastBlock. /// To be called from main loop every 100ms or so. void process(); /// Sync the chain with any incoming blocks. All blocks should, if processed in order std::tuple sync(BlockQueue& _bq, OverlayDB const& _stateDB, unsigned _max); /// Attempt to import the given block directly into the CanonBlockChain and sync with the state DB. /// @returns the block hashes of any blocks that came into/went out of the canonical block chain. std::pair attemptImport(bytes const& _block, OverlayDB const& _stateDB, bool _force = false) noexcept; /// Import block into disk-backed DB /// @returns the block hashes of any blocks that came into/went out of the canonical block chain. std::pair import(bytes const& _block, OverlayDB const& _stateDB, bool _force = false); /// Returns true if the given block is known (though not necessarily a part of the canon chain). bool isKnown(h256 const& _hash) const; /// Get the familial details concerning a block (or the most recent mined if none given). Thread-safe. BlockInfo info(h256 const& _hash) const { return BlockInfo(block(_hash), IgnoreNonce, _hash); } BlockInfo info() const { return info(currentHash()); } /// Get a block (RLP format) for the given hash (or the most recent mined if none given). Thread-safe. bytes block(h256 const& _hash) const; bytes block() const { return block(currentHash()); } bytes oldBlock(h256 const& _hash) const; /// Get the familial details concerning a block (or the most recent mined if none given). Thread-safe. BlockDetails details(h256 const& _hash) const { return queryExtras(_hash, m_details, x_details, NullBlockDetails); } BlockDetails details() const { return details(currentHash()); } /// Get the transactions' log blooms of a block (or the most recent mined if none given). Thread-safe. BlockLogBlooms logBlooms(h256 const& _hash) const { return queryExtras(_hash, m_logBlooms, x_logBlooms, NullBlockLogBlooms); } BlockLogBlooms logBlooms() const { return logBlooms(currentHash()); } /// Get the transactions' receipts of a block (or the most recent mined if none given). Thread-safe. BlockReceipts receipts(h256 const& _hash) const { return queryExtras(_hash, m_receipts, x_receipts, NullBlockReceipts); } BlockReceipts receipts() const { return receipts(currentHash()); } /// Get a list of transaction hashes for a given block. Thread-safe. TransactionHashes transactionHashes(h256 const& _hash) const { auto b = block(_hash); RLP rlp(b); h256s ret; for (auto t: rlp[1]) ret.push_back(sha3(t.data())); return ret; } TransactionHashes transactionHashes() const { return transactionHashes(currentHash()); } /// Get a list of uncle hashes for a given block. Thread-safe. UncleHashes uncleHashes(h256 const& _hash) const { auto b = block(_hash); RLP rlp(b); h256s ret; for (auto t: rlp[2]) ret.push_back(sha3(t.data())); return ret; } UncleHashes uncleHashes() const { return uncleHashes(currentHash()); } /// Get the hash for a given block's number. h256 numberHash(unsigned _i) const { if (!_i) return genesisHash(); return queryExtras(h256(u256(_i)), m_blockHashes, x_blockHashes, NullBlockHash).value; } /// Get the last N hashes for a given block. (N is determined by the LastHashes type.) LastHashes lastHashes() const { return lastHashes(number()); } LastHashes lastHashes(unsigned _i) const; /** Get the block blooms for a number of blocks. Thread-safe. * @returns the object pertaining to the blocks: * level 0: * 0x, 0x + 1, .. (1x - 1) * 1x, 1x + 1, .. (2x - 1) * ... * (255x .. (256x - 1)) * level 1: * 0x .. (1x - 1), 1x .. (2x - 1), ..., (255x .. (256x - 1)) * 256x .. (257x - 1), 257x .. (258x - 1), ..., (511x .. (512x - 1)) * ... * level n, index i, offset o: * i * (x ^ n) + o * x ^ (n - 1) */ BlocksBlooms blocksBlooms(unsigned _level, unsigned _index) const { return blocksBlooms(chunkId(_level, _index)); } BlocksBlooms blocksBlooms(h256 const& _chunkId) const { return queryExtras(_chunkId, m_blocksBlooms, x_blocksBlooms, NullBlocksBlooms); } void clearBlockBlooms(unsigned _begin, unsigned _end); LogBloom blockBloom(unsigned _number) const { return blocksBlooms(chunkId(0, _number / c_bloomIndexSize)).blooms[_number % c_bloomIndexSize]; } std::vector withBlockBloom(LogBloom const& _b, unsigned _earliest, unsigned _latest) const; std::vector withBlockBloom(LogBloom const& _b, unsigned _earliest, unsigned _latest, unsigned _topLevel, unsigned _index) const; /// Get a transaction from its hash. Thread-safe. bytes transaction(h256 const& _transactionHash) const { TransactionAddress ta = queryExtras(_transactionHash, m_transactionAddresses, x_transactionAddresses, NullTransactionAddress); if (!ta) return bytes(); return transaction(ta.blockHash, ta.index); } std::pair transactionLocation(h256 const& _transactionHash) const { TransactionAddress ta = queryExtras(_transactionHash, m_transactionAddresses, x_transactionAddresses, NullTransactionAddress); if (!ta) return std::pair(h256(), 0); return std::make_pair(ta.blockHash, ta.index); } /// Get a block's transaction (RLP format) for the given block hash (or the most recent mined if none given) & index. Thread-safe. bytes transaction(h256 const& _blockHash, unsigned _i) const { bytes b = block(_blockHash); return RLP(b)[1][_i].data().toBytes(); } bytes transaction(unsigned _i) const { return transaction(currentHash(), _i); } /// Get all transactions from a block. std::vector transactions(h256 const& _blockHash) const { bytes b = block(_blockHash); std::vector ret; for (auto const& i: RLP(b)[1]) ret.push_back(i.data().toBytes()); return ret; } std::vector transactions() const { return transactions(currentHash()); } /// Get a number for the given hash (or the most recent mined if none given). Thread-safe. unsigned number(h256 const& _hash) const { return details(_hash).number; } unsigned number() const { return number(currentHash()); } /// Get a given block (RLP format). Thread-safe. h256 currentHash() const { ReadGuard l(x_lastBlockHash); return m_lastBlockHash; } /// Get the hash of the genesis block. Thread-safe. h256 genesisHash() const { return m_genesisHash; } /// Get all blocks not allowed as uncles given a parent (i.e. featured as uncles/main in parent, parent + 1, ... parent + 5). /// @returns set including the header-hash of every parent (including @a _parent) up to and including generation +5 /// togther with all their quoted uncles. h256Set allUnclesFrom(h256 const& _parent) const; /// Run through database and verify all blocks by reevaluating. /// Will call _progress with the progress in this operation first param done, second total. void rebuild(std::string const& _path, ProgressCallback const& _progress = std::function()); /** @returns a tuple of: * - an vector of hashes of all blocks between @a _from and @a _to, all blocks are ordered first by a number of * blocks that are parent-to-child, then two sibling blocks, then a number of blocks that are child-to-parent; * - the block hash of the latest common ancestor of both blocks; * - the index where the latest common ancestor of both blocks would either be found or inserted, depending * on whether it is included. * * @param _common if true, include the common ancestor in the returned vector. * @param _pre if true, include all block hashes running from @a _from until the common ancestor in the returned vector. * @param _post if true, include all block hashes running from the common ancestor until @a _to in the returned vector. * * e.g. if the block tree is 3a -> 2a -> 1a -> g and 2b -> 1b -> g (g is genesis, *a, *b are competing chains), * then: * @code * treeRoute(3a, 2b, false) == make_tuple({ 3a, 2a, 1a, 1b, 2b }, g, 3); * treeRoute(2a, 1a, false) == make_tuple({ 2a, 1a }, 1a, 1) * treeRoute(1a, 2a, false) == make_tuple({ 1a, 2a }, 1a, 0) * treeRoute(1b, 2a, false) == make_tuple({ 1b, 1a, 2a }, g, 1) * treeRoute(3a, 2b, true) == make_tuple({ 3a, 2a, 1a, g, 1b, 2b }, g, 3); * treeRoute(2a, 1a, true) == make_tuple({ 2a, 1a }, 1a, 1) * treeRoute(1a, 2a, true) == make_tuple({ 1a, 2a }, 1a, 0) * treeRoute(1b, 2a, true) == make_tuple({ 1b, g, 1a, 2a }, g, 1) * @endcode */ std::tuple treeRoute(h256 const& _from, h256 const& _to, bool _common = true, bool _pre = true, bool _post = true) const; struct Statistics { unsigned memBlocks; unsigned memDetails; unsigned memLogBlooms; unsigned memReceipts; unsigned memTransactionAddresses; unsigned memBlockHashes; unsigned memTotal() const { return memBlocks + memDetails + memLogBlooms + memReceipts + memTransactionAddresses + memBlockHashes; } }; /// @returns statistics about memory usage. Statistics usage(bool _freshen = false) const { if (_freshen) updateStats(); return m_lastStats; } /// Deallocate unused data. void garbageCollect(bool _force = false); private: static h256 chunkId(unsigned _level, unsigned _index) { return h256(_index * 0xff + _level); } void open(std::string const& _path, WithExisting _we = WithExisting::Trust); void close(); template T queryExtras(h256 const& _h, std::map& _m, boost::shared_mutex& _x, T const& _n, ldb::DB* _extrasDB = nullptr) const { { ReadGuard l(_x); auto it = _m.find(_h); if (it != _m.end()) return it->second; } std::string s; (_extrasDB ? _extrasDB : m_extrasDB)->Get(m_readOptions, toSlice(_h, N), &s); if (s.empty()) { // cout << "Not found in DB: " << _h << endl; return _n; } noteUsed(_h, N); WriteGuard l(_x); auto ret = _m.insert(std::make_pair(_h, T(RLP(s)))); return ret.first->second; } void checkConsistency(); /// The caches of the disk DB and their locks. mutable SharedMutex x_blocks; mutable BlocksHash m_blocks; mutable SharedMutex x_details; mutable BlockDetailsHash m_details; mutable SharedMutex x_logBlooms; mutable BlockLogBloomsHash m_logBlooms; mutable SharedMutex x_receipts; mutable BlockReceiptsHash m_receipts; mutable SharedMutex x_transactionAddresses; mutable TransactionAddressHash m_transactionAddresses; mutable SharedMutex x_blockHashes; mutable BlockHashHash m_blockHashes; mutable SharedMutex x_blocksBlooms; mutable BlocksBloomsHash m_blocksBlooms; using CacheID = std::pair; mutable Mutex x_cacheUsage; mutable std::deque> m_cacheUsage; mutable std::set m_inUse; void noteUsed(h256 const& _h, unsigned _extra = (unsigned)-1) const; std::chrono::system_clock::time_point m_lastCollection; void noteCanonChanged() const { Guard l(x_lastLastHashes); m_lastLastHashes.clear(); } mutable Mutex x_lastLastHashes; mutable LastHashes m_lastLastHashes; mutable unsigned m_lastLastHashesNumber = (unsigned)-1; void updateStats() const; mutable Statistics m_lastStats; /// The disk DBs. Thread-safe, so no need for locks. ldb::DB* m_blocksDB; ldb::DB* m_extrasDB; /// Hash of the last (valid) block on the longest chain. mutable boost::shared_mutex x_lastBlockHash; h256 m_lastBlockHash; /// Genesis block info. h256 m_genesisHash; bytes m_genesisBlock; ldb::ReadOptions m_readOptions; ldb::WriteOptions m_writeOptions; friend std::ostream& operator<<(std::ostream& _out, BlockChain const& _bc); }; std::ostream& operator<<(std::ostream& _out, BlockChain const& _bc); } }