// Copyright (c) 2021-2022 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. // #ifndef BITCOIN_TEST_UTIL_CHAINSTATE_H #define BITCOIN_TEST_UTIL_CHAINSTATE_H #include #include #include #include #include #include #include #include #include const auto NoMalleation = [](AutoFile& file, node::SnapshotMetadata& meta){}; /** * Create and activate a UTXO snapshot, optionally providing a function to * malleate the snapshot. * * If `reset_chainstate` is true, reset the original chainstate back to the genesis * block. This allows us to simulate more realistic conditions in which a snapshot is * loaded into an otherwise mostly-uninitialized datadir. It also allows us to test * conditions that would otherwise cause shutdowns based on the IBD chainstate going * past the snapshot it generated. */ template static bool CreateAndActivateUTXOSnapshot( TestingSetup* fixture, F malleation = NoMalleation, bool reset_chainstate = false, bool in_memory_chainstate = false) { node::NodeContext& node = fixture->m_node; fs::path root = fixture->m_path_root; // Write out a snapshot to the test's tempdir. // int height; WITH_LOCK(::cs_main, height = node.chainman->ActiveHeight()); fs::path snapshot_path = root / fs::u8path(tfm::format("test_snapshot.%d.dat", height)); FILE* outfile{fsbridge::fopen(snapshot_path, "wb")}; AutoFile auto_outfile{outfile}; UniValue result = CreateUTXOSnapshot( node, node.chainman->ActiveChainstate(), auto_outfile, snapshot_path, snapshot_path); LogPrintf( "Wrote UTXO snapshot to %s: %s\n", fs::PathToString(snapshot_path.make_preferred()), result.write()); // Read the written snapshot in and then activate it. // FILE* infile{fsbridge::fopen(snapshot_path, "rb")}; AutoFile auto_infile{infile}; node::SnapshotMetadata metadata{node.chainman->GetParams().MessageStart()}; auto_infile >> metadata; malleation(auto_infile, metadata); if (reset_chainstate) { { // What follows is code to selectively reset chainstate data without // disturbing the existing BlockManager instance, which is needed to // recognize the headers chain previously generated by the chainstate we're // removing. Without those headers, we can't activate the snapshot below. // // This is a stripped-down version of node::LoadChainstate which // preserves the block index. LOCK(::cs_main); CBlockIndex *orig_tip = node.chainman->ActiveChainstate().m_chain.Tip(); uint256 gen_hash = node.chainman->ActiveChainstate().m_chain[0]->GetBlockHash(); node.chainman->ResetChainstates(); node.chainman->InitializeChainstate(node.mempool.get()); Chainstate& chain = node.chainman->ActiveChainstate(); Assert(chain.LoadGenesisBlock()); // These cache values will be corrected shortly in `MaybeRebalanceCaches`. chain.InitCoinsDB(1 << 20, true, false, ""); chain.InitCoinsCache(1 << 20); chain.CoinsTip().SetBestBlock(gen_hash); chain.setBlockIndexCandidates.insert(node.chainman->m_blockman.LookupBlockIndex(gen_hash)); chain.LoadChainTip(); node.chainman->MaybeRebalanceCaches(); // Reset the HAVE_DATA flags below the snapshot height, simulating // never-having-downloaded them in the first place. // TODO: perhaps we could improve this by using pruning to delete // these blocks instead CBlockIndex *pindex = orig_tip; while (pindex && pindex != chain.m_chain.Tip()) { // Remove all data and validity flags by just setting // BLOCK_VALID_TREE. Also reset transaction counts and sequence // ids that are set when blocks are received, to make test setup // more realistic and satisfy consistency checks in // CheckBlockIndex(). assert(pindex->IsValid(BlockStatus::BLOCK_VALID_TREE)); pindex->nStatus = BlockStatus::BLOCK_VALID_TREE; pindex->nTx = 0; pindex->nChainTx = 0; pindex->nSequenceId = 0; pindex = pindex->pprev; } } BlockValidationState state; if (!node.chainman->ActiveChainstate().ActivateBestChain(state)) { throw std::runtime_error(strprintf("ActivateBestChain failed. (%s)", state.ToString())); } Assert( 0 == WITH_LOCK(node.chainman->GetMutex(), return node.chainman->ActiveHeight())); } auto& new_active = node.chainman->ActiveChainstate(); auto* tip = new_active.m_chain.Tip(); // Disconnect a block so that the snapshot chainstate will be ahead, otherwise // it will refuse to activate. // // TODO this is a unittest-specific hack, and we should probably rethink how to // better generate/activate snapshots in unittests. if (tip->pprev) { new_active.m_chain.SetTip(*(tip->pprev)); } auto res = node.chainman->ActivateSnapshot(auto_infile, metadata, in_memory_chainstate); // Restore the old tip. new_active.m_chain.SetTip(*tip); return !!res; } #endif // BITCOIN_TEST_UTIL_CHAINSTATE_H