// Copyright (c) 2021 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 namespace node { std::optional LoadChainstate(bool fReset, ChainstateManager& chainman, CTxMemPool* mempool, bool fPruneMode, const Consensus::Params& consensus_params, bool fReindexChainState, int64_t nBlockTreeDBCache, int64_t nCoinDBCache, int64_t nCoinCacheUsage, bool block_tree_db_in_memory, bool coins_db_in_memory, std::function shutdown_requested, std::function coins_error_cb) { auto is_coinsview_empty = [&](CChainState* chainstate) EXCLUSIVE_LOCKS_REQUIRED(::cs_main) { return fReset || fReindexChainState || chainstate->CoinsTip().GetBestBlock().IsNull(); }; LOCK(cs_main); chainman.InitializeChainstate(mempool); chainman.m_total_coinstip_cache = nCoinCacheUsage; chainman.m_total_coinsdb_cache = nCoinDBCache; UnloadBlockIndex(mempool, chainman); auto& pblocktree{chainman.m_blockman.m_block_tree_db}; // new CBlockTreeDB tries to delete the existing file, which // fails if it's still open from the previous loop. Close it first: pblocktree.reset(); pblocktree.reset(new CBlockTreeDB(nBlockTreeDBCache, block_tree_db_in_memory, fReset)); if (fReset) { pblocktree->WriteReindexing(true); //If we're reindexing in prune mode, wipe away unusable block files and all undo data files if (fPruneMode) CleanupBlockRevFiles(); } if (shutdown_requested && shutdown_requested()) return ChainstateLoadingError::SHUTDOWN_PROBED; // LoadBlockIndex will load fHavePruned if we've ever removed a // block file from disk. // Note that it also sets fReindex based on the disk flag! // From here on out fReindex and fReset mean something different! if (!chainman.LoadBlockIndex()) { if (shutdown_requested && shutdown_requested()) return ChainstateLoadingError::SHUTDOWN_PROBED; return ChainstateLoadingError::ERROR_LOADING_BLOCK_DB; } if (!chainman.BlockIndex().empty() && !chainman.m_blockman.LookupBlockIndex(consensus_params.hashGenesisBlock)) { return ChainstateLoadingError::ERROR_BAD_GENESIS_BLOCK; } // Check for changed -prune state. What we are concerned about is a user who has pruned blocks // in the past, but is now trying to run unpruned. if (fHavePruned && !fPruneMode) { return ChainstateLoadingError::ERROR_PRUNED_NEEDS_REINDEX; } // At this point blocktree args are consistent with what's on disk. // If we're not mid-reindex (based on disk + args), add a genesis block on disk // (otherwise we use the one already on disk). // This is called again in ThreadImport after the reindex completes. if (!fReindex && !chainman.ActiveChainstate().LoadGenesisBlock()) { return ChainstateLoadingError::ERROR_LOAD_GENESIS_BLOCK_FAILED; } // At this point we're either in reindex or we've loaded a useful // block tree into BlockIndex()! for (CChainState* chainstate : chainman.GetAll()) { chainstate->InitCoinsDB( /* cache_size_bytes */ nCoinDBCache, /* in_memory */ coins_db_in_memory, /* should_wipe */ fReset || fReindexChainState); if (coins_error_cb) { chainstate->CoinsErrorCatcher().AddReadErrCallback(coins_error_cb); } // If necessary, upgrade from older database format. // This is a no-op if we cleared the coinsviewdb with -reindex or -reindex-chainstate if (!chainstate->CoinsDB().Upgrade()) { return ChainstateLoadingError::ERROR_CHAINSTATE_UPGRADE_FAILED; } // ReplayBlocks is a no-op if we cleared the coinsviewdb with -reindex or -reindex-chainstate if (!chainstate->ReplayBlocks()) { return ChainstateLoadingError::ERROR_REPLAYBLOCKS_FAILED; } // The on-disk coinsdb is now in a good state, create the cache chainstate->InitCoinsCache(nCoinCacheUsage); assert(chainstate->CanFlushToDisk()); if (!is_coinsview_empty(chainstate)) { // LoadChainTip initializes the chain based on CoinsTip()'s best block if (!chainstate->LoadChainTip()) { return ChainstateLoadingError::ERROR_LOADCHAINTIP_FAILED; } assert(chainstate->m_chain.Tip() != nullptr); } } if (!fReset) { auto chainstates{chainman.GetAll()}; if (std::any_of(chainstates.begin(), chainstates.end(), [](const CChainState* cs) EXCLUSIVE_LOCKS_REQUIRED(cs_main) { return cs->NeedsRedownload(); })) { return ChainstateLoadingError::ERROR_BLOCKS_WITNESS_INSUFFICIENTLY_VALIDATED; } } return std::nullopt; } std::optional VerifyLoadedChainstate(ChainstateManager& chainman, bool fReset, bool fReindexChainState, const Consensus::Params& consensus_params, int check_blocks, int check_level, std::function get_unix_time_seconds) { auto is_coinsview_empty = [&](CChainState* chainstate) EXCLUSIVE_LOCKS_REQUIRED(::cs_main) { return fReset || fReindexChainState || chainstate->CoinsTip().GetBestBlock().IsNull(); }; LOCK(cs_main); for (CChainState* chainstate : chainman.GetAll()) { if (!is_coinsview_empty(chainstate)) { const CBlockIndex* tip = chainstate->m_chain.Tip(); if (tip && tip->nTime > get_unix_time_seconds() + MAX_FUTURE_BLOCK_TIME) { return ChainstateLoadVerifyError::ERROR_BLOCK_FROM_FUTURE; } if (!CVerifyDB().VerifyDB( *chainstate, consensus_params, chainstate->CoinsDB(), check_level, check_blocks)) { return ChainstateLoadVerifyError::ERROR_CORRUPTED_BLOCK_DB; } } } return std::nullopt; } } // namespace node