// Copyright (c) 2009-2010 Satoshi Nakamoto // Copyright (c) 2009-2022 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include #include #include #include #include #include #include static constexpr uint8_t DB_COIN{'C'}; static constexpr uint8_t DB_BEST_BLOCK{'B'}; static constexpr uint8_t DB_HEAD_BLOCKS{'H'}; // Keys used in previous version that might still be found in the DB: static constexpr uint8_t DB_COINS{'c'}; bool CCoinsViewDB::NeedsUpgrade() { std::unique_ptr cursor{m_db->NewIterator()}; // DB_COINS was deprecated in v0.15.0, commit // 1088b02f0ccd7358d2b7076bb9e122d59d502d02 cursor->Seek(std::make_pair(DB_COINS, uint256{})); return cursor->Valid(); } namespace { struct CoinEntry { COutPoint* outpoint; uint8_t key; explicit CoinEntry(const COutPoint* ptr) : outpoint(const_cast(ptr)), key(DB_COIN) {} SERIALIZE_METHODS(CoinEntry, obj) { READWRITE(obj.key, obj.outpoint->hash, VARINT(obj.outpoint->n)); } }; } // namespace CCoinsViewDB::CCoinsViewDB(DBParams db_params, CoinsViewOptions options) : m_db_params{std::move(db_params)}, m_options{std::move(options)}, m_db{std::make_unique(m_db_params)} { } void CCoinsViewDB::ResizeCache(size_t new_cache_size) { // We can't do this operation with an in-memory DB since we'll lose all the coins upon // reset. if (!m_db_params.memory_only) { // Have to do a reset first to get the original `m_db` state to release its // filesystem lock. m_db.reset(); m_db_params.cache_bytes = new_cache_size; m_db_params.wipe_data = false; m_db = std::make_unique(m_db_params); } } bool CCoinsViewDB::GetCoin(const COutPoint &outpoint, Coin &coin) const { return m_db->Read(CoinEntry(&outpoint), coin); } bool CCoinsViewDB::HaveCoin(const COutPoint &outpoint) const { return m_db->Exists(CoinEntry(&outpoint)); } uint256 CCoinsViewDB::GetBestBlock() const { uint256 hashBestChain; if (!m_db->Read(DB_BEST_BLOCK, hashBestChain)) return uint256(); return hashBestChain; } std::vector CCoinsViewDB::GetHeadBlocks() const { std::vector vhashHeadBlocks; if (!m_db->Read(DB_HEAD_BLOCKS, vhashHeadBlocks)) { return std::vector(); } return vhashHeadBlocks; } bool CCoinsViewDB::BatchWrite(CoinsViewCacheCursor& cursor, const uint256 &hashBlock) { CDBBatch batch(*m_db); size_t count = 0; size_t changed = 0; assert(!hashBlock.IsNull()); uint256 old_tip = GetBestBlock(); if (old_tip.IsNull()) { // We may be in the middle of replaying. std::vector old_heads = GetHeadBlocks(); if (old_heads.size() == 2) { if (old_heads[0] != hashBlock) { LogPrintLevel(BCLog::COINDB, BCLog::Level::Error, "The coins database detected an inconsistent state, likely due to a previous crash or shutdown. You will need to restart bitcoind with the -reindex-chainstate or -reindex configuration option.\n"); } assert(old_heads[0] == hashBlock); old_tip = old_heads[1]; } } // In the first batch, mark the database as being in the middle of a // transition from old_tip to hashBlock. // A vector is used for future extensibility, as we may want to support // interrupting after partial writes from multiple independent reorgs. batch.Erase(DB_BEST_BLOCK); batch.Write(DB_HEAD_BLOCKS, Vector(hashBlock, old_tip)); for (auto it{cursor.Begin()}; it != cursor.End();) { if (it->second.IsDirty()) { CoinEntry entry(&it->first); if (it->second.coin.IsSpent()) batch.Erase(entry); else batch.Write(entry, it->second.coin); changed++; } count++; it = cursor.NextAndMaybeErase(*it); if (batch.SizeEstimate() > m_options.batch_write_bytes) { LogPrint(BCLog::COINDB, "Writing partial batch of %.2f MiB\n", batch.SizeEstimate() * (1.0 / 1048576.0)); m_db->WriteBatch(batch); batch.Clear(); if (m_options.simulate_crash_ratio) { static FastRandomContext rng; if (rng.randrange(m_options.simulate_crash_ratio) == 0) { LogPrintf("Simulating a crash. Goodbye.\n"); _Exit(0); } } } } // In the last batch, mark the database as consistent with hashBlock again. batch.Erase(DB_HEAD_BLOCKS); batch.Write(DB_BEST_BLOCK, hashBlock); LogPrint(BCLog::COINDB, "Writing final batch of %.2f MiB\n", batch.SizeEstimate() * (1.0 / 1048576.0)); bool ret = m_db->WriteBatch(batch); LogPrint(BCLog::COINDB, "Committed %u changed transaction outputs (out of %u) to coin database...\n", (unsigned int)changed, (unsigned int)count); return ret; } size_t CCoinsViewDB::EstimateSize() const { return m_db->EstimateSize(DB_COIN, uint8_t(DB_COIN + 1)); } /** Specialization of CCoinsViewCursor to iterate over a CCoinsViewDB */ class CCoinsViewDBCursor: public CCoinsViewCursor { public: // Prefer using CCoinsViewDB::Cursor() since we want to perform some // cache warmup on instantiation. CCoinsViewDBCursor(CDBIterator* pcursorIn, const uint256&hashBlockIn): CCoinsViewCursor(hashBlockIn), pcursor(pcursorIn) {} ~CCoinsViewDBCursor() = default; bool GetKey(COutPoint &key) const override; bool GetValue(Coin &coin) const override; bool Valid() const override; void Next() override; private: std::unique_ptr pcursor; std::pair keyTmp; friend class CCoinsViewDB; }; std::unique_ptr CCoinsViewDB::Cursor() const { auto i = std::make_unique( const_cast(*m_db).NewIterator(), GetBestBlock()); /* It seems that there are no "const iterators" for LevelDB. Since we only need read operations on it, use a const-cast to get around that restriction. */ i->pcursor->Seek(DB_COIN); // Cache key of first record if (i->pcursor->Valid()) { CoinEntry entry(&i->keyTmp.second); i->pcursor->GetKey(entry); i->keyTmp.first = entry.key; } else { i->keyTmp.first = 0; // Make sure Valid() and GetKey() return false } return i; } bool CCoinsViewDBCursor::GetKey(COutPoint &key) const { // Return cached key if (keyTmp.first == DB_COIN) { key = keyTmp.second; return true; } return false; } bool CCoinsViewDBCursor::GetValue(Coin &coin) const { return pcursor->GetValue(coin); } bool CCoinsViewDBCursor::Valid() const { return keyTmp.first == DB_COIN; } void CCoinsViewDBCursor::Next() { pcursor->Next(); CoinEntry entry(&keyTmp.second); if (!pcursor->Valid() || !pcursor->GetKey(entry)) { keyTmp.first = 0; // Invalidate cached key after last record so that Valid() and GetKey() return false } else { keyTmp.first = entry.key; } }