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291 lines
10 KiB
291 lines
10 KiB
// Copyright (c) 2017-2019 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include <index/txindex.h>
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#include <shutdown.h>
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#include <ui_interface.h>
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#include <util/system.h>
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#include <util/translation.h>
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#include <validation.h>
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#include <boost/thread.hpp>
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constexpr char DB_BEST_BLOCK = 'B';
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constexpr char DB_TXINDEX = 't';
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constexpr char DB_TXINDEX_BLOCK = 'T';
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std::unique_ptr<TxIndex> g_txindex;
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struct CDiskTxPos : public FlatFilePos
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{
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unsigned int nTxOffset; // after header
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ADD_SERIALIZE_METHODS;
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template <typename Stream, typename Operation>
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inline void SerializationOp(Stream& s, Operation ser_action) {
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READWRITEAS(FlatFilePos, *this);
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READWRITE(VARINT(nTxOffset));
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}
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CDiskTxPos(const FlatFilePos &blockIn, unsigned int nTxOffsetIn) : FlatFilePos(blockIn.nFile, blockIn.nPos), nTxOffset(nTxOffsetIn) {
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}
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CDiskTxPos() {
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SetNull();
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}
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void SetNull() {
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FlatFilePos::SetNull();
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nTxOffset = 0;
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}
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};
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/**
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* Access to the txindex database (indexes/txindex/)
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*
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* The database stores a block locator of the chain the database is synced to
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* so that the TxIndex can efficiently determine the point it last stopped at.
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* A locator is used instead of a simple hash of the chain tip because blocks
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* and block index entries may not be flushed to disk until after this database
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* is updated.
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*/
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class TxIndex::DB : public BaseIndex::DB
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{
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public:
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explicit DB(size_t n_cache_size, bool f_memory = false, bool f_wipe = false);
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/// Read the disk location of the transaction data with the given hash. Returns false if the
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/// transaction hash is not indexed.
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bool ReadTxPos(const uint256& txid, CDiskTxPos& pos) const;
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/// Write a batch of transaction positions to the DB.
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bool WriteTxs(const std::vector<std::pair<uint256, CDiskTxPos>>& v_pos);
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/// Migrate txindex data from the block tree DB, where it may be for older nodes that have not
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/// been upgraded yet to the new database.
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bool MigrateData(CBlockTreeDB& block_tree_db, const CBlockLocator& best_locator);
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};
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TxIndex::DB::DB(size_t n_cache_size, bool f_memory, bool f_wipe) :
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BaseIndex::DB(GetDataDir() / "indexes" / "txindex", n_cache_size, f_memory, f_wipe)
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{}
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bool TxIndex::DB::ReadTxPos(const uint256 &txid, CDiskTxPos& pos) const
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{
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return Read(std::make_pair(DB_TXINDEX, txid), pos);
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}
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bool TxIndex::DB::WriteTxs(const std::vector<std::pair<uint256, CDiskTxPos>>& v_pos)
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{
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CDBBatch batch(*this);
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for (const auto& tuple : v_pos) {
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batch.Write(std::make_pair(DB_TXINDEX, tuple.first), tuple.second);
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}
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return WriteBatch(batch);
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}
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/*
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* Safely persist a transfer of data from the old txindex database to the new one, and compact the
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* range of keys updated. This is used internally by MigrateData.
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*/
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static void WriteTxIndexMigrationBatches(CDBWrapper& newdb, CDBWrapper& olddb,
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CDBBatch& batch_newdb, CDBBatch& batch_olddb,
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const std::pair<unsigned char, uint256>& begin_key,
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const std::pair<unsigned char, uint256>& end_key)
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{
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// Sync new DB changes to disk before deleting from old DB.
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newdb.WriteBatch(batch_newdb, /*fSync=*/ true);
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olddb.WriteBatch(batch_olddb);
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olddb.CompactRange(begin_key, end_key);
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batch_newdb.Clear();
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batch_olddb.Clear();
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}
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bool TxIndex::DB::MigrateData(CBlockTreeDB& block_tree_db, const CBlockLocator& best_locator)
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{
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// The prior implementation of txindex was always in sync with block index
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// and presence was indicated with a boolean DB flag. If the flag is set,
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// this means the txindex from a previous version is valid and in sync with
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// the chain tip. The first step of the migration is to unset the flag and
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// write the chain hash to a separate key, DB_TXINDEX_BLOCK. After that, the
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// index entries are copied over in batches to the new database. Finally,
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// DB_TXINDEX_BLOCK is erased from the old database and the block hash is
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// written to the new database.
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//
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// Unsetting the boolean flag ensures that if the node is downgraded to a
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// previous version, it will not see a corrupted, partially migrated index
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// -- it will see that the txindex is disabled. When the node is upgraded
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// again, the migration will pick up where it left off and sync to the block
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// with hash DB_TXINDEX_BLOCK.
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bool f_legacy_flag = false;
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block_tree_db.ReadFlag("txindex", f_legacy_flag);
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if (f_legacy_flag) {
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if (!block_tree_db.Write(DB_TXINDEX_BLOCK, best_locator)) {
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return error("%s: cannot write block indicator", __func__);
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}
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if (!block_tree_db.WriteFlag("txindex", false)) {
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return error("%s: cannot write block index db flag", __func__);
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}
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}
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CBlockLocator locator;
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if (!block_tree_db.Read(DB_TXINDEX_BLOCK, locator)) {
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return true;
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}
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int64_t count = 0;
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LogPrintf("Upgrading txindex database... [0%%]\n");
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uiInterface.ShowProgress(_("Upgrading txindex database").translated, 0, true);
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int report_done = 0;
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const size_t batch_size = 1 << 24; // 16 MiB
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CDBBatch batch_newdb(*this);
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CDBBatch batch_olddb(block_tree_db);
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std::pair<unsigned char, uint256> key;
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std::pair<unsigned char, uint256> begin_key{DB_TXINDEX, uint256()};
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std::pair<unsigned char, uint256> prev_key = begin_key;
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bool interrupted = false;
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std::unique_ptr<CDBIterator> cursor(block_tree_db.NewIterator());
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for (cursor->Seek(begin_key); cursor->Valid(); cursor->Next()) {
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boost::this_thread::interruption_point();
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if (ShutdownRequested()) {
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interrupted = true;
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break;
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}
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if (!cursor->GetKey(key)) {
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return error("%s: cannot get key from valid cursor", __func__);
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}
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if (key.first != DB_TXINDEX) {
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break;
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}
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// Log progress every 10%.
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if (++count % 256 == 0) {
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// Since txids are uniformly random and traversed in increasing order, the high 16 bits
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// of the hash can be used to estimate the current progress.
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const uint256& txid = key.second;
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uint32_t high_nibble =
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(static_cast<uint32_t>(*(txid.begin() + 0)) << 8) +
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(static_cast<uint32_t>(*(txid.begin() + 1)) << 0);
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int percentage_done = (int)(high_nibble * 100.0 / 65536.0 + 0.5);
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uiInterface.ShowProgress(_("Upgrading txindex database").translated, percentage_done, true);
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if (report_done < percentage_done/10) {
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LogPrintf("Upgrading txindex database... [%d%%]\n", percentage_done);
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report_done = percentage_done/10;
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}
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}
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CDiskTxPos value;
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if (!cursor->GetValue(value)) {
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return error("%s: cannot parse txindex record", __func__);
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}
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batch_newdb.Write(key, value);
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batch_olddb.Erase(key);
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if (batch_newdb.SizeEstimate() > batch_size || batch_olddb.SizeEstimate() > batch_size) {
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// NOTE: it's OK to delete the key pointed at by the current DB cursor while iterating
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// because LevelDB iterators are guaranteed to provide a consistent view of the
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// underlying data, like a lightweight snapshot.
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WriteTxIndexMigrationBatches(*this, block_tree_db,
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batch_newdb, batch_olddb,
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prev_key, key);
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prev_key = key;
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}
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}
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// If these final DB batches complete the migration, write the best block
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// hash marker to the new database and delete from the old one. This signals
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// that the former is fully caught up to that point in the blockchain and
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// that all txindex entries have been removed from the latter.
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if (!interrupted) {
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batch_olddb.Erase(DB_TXINDEX_BLOCK);
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batch_newdb.Write(DB_BEST_BLOCK, locator);
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}
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WriteTxIndexMigrationBatches(*this, block_tree_db,
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batch_newdb, batch_olddb,
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begin_key, key);
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if (interrupted) {
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LogPrintf("[CANCELLED].\n");
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return false;
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}
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uiInterface.ShowProgress("", 100, false);
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LogPrintf("[DONE].\n");
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return true;
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}
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TxIndex::TxIndex(size_t n_cache_size, bool f_memory, bool f_wipe)
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: m_db(MakeUnique<TxIndex::DB>(n_cache_size, f_memory, f_wipe))
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{}
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TxIndex::~TxIndex() {}
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bool TxIndex::Init()
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{
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LOCK(cs_main);
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// Attempt to migrate txindex from the old database to the new one. Even if
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// chain_tip is null, the node could be reindexing and we still want to
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// delete txindex records in the old database.
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if (!m_db->MigrateData(*pblocktree, ::ChainActive().GetLocator())) {
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return false;
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}
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return BaseIndex::Init();
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}
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bool TxIndex::WriteBlock(const CBlock& block, const CBlockIndex* pindex)
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{
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// Exclude genesis block transaction because outputs are not spendable.
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if (pindex->nHeight == 0) return true;
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CDiskTxPos pos(pindex->GetBlockPos(), GetSizeOfCompactSize(block.vtx.size()));
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std::vector<std::pair<uint256, CDiskTxPos>> vPos;
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vPos.reserve(block.vtx.size());
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for (const auto& tx : block.vtx) {
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vPos.emplace_back(tx->GetHash(), pos);
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pos.nTxOffset += ::GetSerializeSize(*tx, CLIENT_VERSION);
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}
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return m_db->WriteTxs(vPos);
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}
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BaseIndex::DB& TxIndex::GetDB() const { return *m_db; }
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bool TxIndex::FindTx(const uint256& tx_hash, uint256& block_hash, CTransactionRef& tx) const
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{
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CDiskTxPos postx;
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if (!m_db->ReadTxPos(tx_hash, postx)) {
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return false;
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}
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CAutoFile file(OpenBlockFile(postx, true), SER_DISK, CLIENT_VERSION);
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if (file.IsNull()) {
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return error("%s: OpenBlockFile failed", __func__);
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}
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CBlockHeader header;
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try {
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file >> header;
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if (fseek(file.Get(), postx.nTxOffset, SEEK_CUR)) {
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return error("%s: fseek(...) failed", __func__);
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}
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file >> tx;
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} catch (const std::exception& e) {
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return error("%s: Deserialize or I/O error - %s", __func__, e.what());
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}
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if (tx->GetHash() != tx_hash) {
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return error("%s: txid mismatch", __func__);
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}
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block_hash = header.GetHash();
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return true;
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}
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