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434 lines
15 KiB
C++
434 lines
15 KiB
C++
// Copyright (c) 2009-2010 Satoshi Nakamoto
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// Copyright (c) 2009-2014 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 "txmempool.h"
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#include "clientversion.h"
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#include "consensus/consensus.h"
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#include "consensus/validation.h"
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#include "main.h"
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#include "policy/fees.h"
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#include "streams.h"
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#include "util.h"
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#include "utilmoneystr.h"
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#include "version.h"
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using namespace std;
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CTxMemPoolEntry::CTxMemPoolEntry():
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nFee(0), nTxSize(0), nModSize(0), nUsageSize(0), nTime(0), dPriority(0.0), hadNoDependencies(false)
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{
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nHeight = MEMPOOL_HEIGHT;
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}
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CTxMemPoolEntry::CTxMemPoolEntry(const CTransaction& _tx, const CAmount& _nFee,
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int64_t _nTime, double _dPriority,
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unsigned int _nHeight, bool poolHasNoInputsOf):
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tx(_tx), nFee(_nFee), nTime(_nTime), dPriority(_dPriority), nHeight(_nHeight),
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hadNoDependencies(poolHasNoInputsOf)
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{
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nTxSize = ::GetSerializeSize(tx, SER_NETWORK, PROTOCOL_VERSION);
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nModSize = tx.CalculateModifiedSize(nTxSize);
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nUsageSize = RecursiveDynamicUsage(tx);
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}
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CTxMemPoolEntry::CTxMemPoolEntry(const CTxMemPoolEntry& other)
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{
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*this = other;
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}
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double
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CTxMemPoolEntry::GetPriority(unsigned int currentHeight) const
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{
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CAmount nValueIn = tx.GetValueOut()+nFee;
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double deltaPriority = ((double)(currentHeight-nHeight)*nValueIn)/nModSize;
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double dResult = dPriority + deltaPriority;
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return dResult;
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}
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CTxMemPool::CTxMemPool(const CFeeRate& _minRelayFee) :
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nTransactionsUpdated(0)
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{
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// Sanity checks off by default for performance, because otherwise
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// accepting transactions becomes O(N^2) where N is the number
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// of transactions in the pool
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fSanityCheck = false;
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minerPolicyEstimator = new CBlockPolicyEstimator(_minRelayFee);
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}
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CTxMemPool::~CTxMemPool()
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{
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delete minerPolicyEstimator;
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}
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void CTxMemPool::pruneSpent(const uint256 &hashTx, CCoins &coins)
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{
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LOCK(cs);
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std::map<COutPoint, CInPoint>::iterator it = mapNextTx.lower_bound(COutPoint(hashTx, 0));
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// iterate over all COutPoints in mapNextTx whose hash equals the provided hashTx
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while (it != mapNextTx.end() && it->first.hash == hashTx) {
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coins.Spend(it->first.n); // and remove those outputs from coins
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it++;
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}
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}
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unsigned int CTxMemPool::GetTransactionsUpdated() const
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{
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LOCK(cs);
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return nTransactionsUpdated;
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}
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void CTxMemPool::AddTransactionsUpdated(unsigned int n)
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{
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LOCK(cs);
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nTransactionsUpdated += n;
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}
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bool CTxMemPool::addUnchecked(const uint256& hash, const CTxMemPoolEntry &entry, bool fCurrentEstimate)
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{
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// Add to memory pool without checking anything.
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// Used by main.cpp AcceptToMemoryPool(), which DOES do
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// all the appropriate checks.
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LOCK(cs);
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mapTx[hash] = entry;
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const CTransaction& tx = mapTx[hash].GetTx();
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for (unsigned int i = 0; i < tx.vin.size(); i++)
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mapNextTx[tx.vin[i].prevout] = CInPoint(&tx, i);
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nTransactionsUpdated++;
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totalTxSize += entry.GetTxSize();
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cachedInnerUsage += entry.DynamicMemoryUsage();
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minerPolicyEstimator->processTransaction(entry, fCurrentEstimate);
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return true;
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}
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void CTxMemPool::remove(const CTransaction &origTx, std::list<CTransaction>& removed, bool fRecursive)
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{
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// Remove transaction from memory pool
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{
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LOCK(cs);
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std::deque<uint256> txToRemove;
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txToRemove.push_back(origTx.GetHash());
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if (fRecursive && !mapTx.count(origTx.GetHash())) {
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// If recursively removing but origTx isn't in the mempool
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// be sure to remove any children that are in the pool. This can
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// happen during chain re-orgs if origTx isn't re-accepted into
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// the mempool for any reason.
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for (unsigned int i = 0; i < origTx.vout.size(); i++) {
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std::map<COutPoint, CInPoint>::iterator it = mapNextTx.find(COutPoint(origTx.GetHash(), i));
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if (it == mapNextTx.end())
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continue;
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txToRemove.push_back(it->second.ptx->GetHash());
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}
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}
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while (!txToRemove.empty())
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{
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uint256 hash = txToRemove.front();
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txToRemove.pop_front();
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if (!mapTx.count(hash))
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continue;
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const CTransaction& tx = mapTx[hash].GetTx();
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if (fRecursive) {
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for (unsigned int i = 0; i < tx.vout.size(); i++) {
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std::map<COutPoint, CInPoint>::iterator it = mapNextTx.find(COutPoint(hash, i));
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if (it == mapNextTx.end())
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continue;
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txToRemove.push_back(it->second.ptx->GetHash());
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}
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}
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BOOST_FOREACH(const CTxIn& txin, tx.vin)
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mapNextTx.erase(txin.prevout);
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removed.push_back(tx);
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totalTxSize -= mapTx[hash].GetTxSize();
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cachedInnerUsage -= mapTx[hash].DynamicMemoryUsage();
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mapTx.erase(hash);
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nTransactionsUpdated++;
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minerPolicyEstimator->removeTx(hash);
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}
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}
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}
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void CTxMemPool::removeCoinbaseSpends(const CCoinsViewCache *pcoins, unsigned int nMemPoolHeight)
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{
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// Remove transactions spending a coinbase which are now immature
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LOCK(cs);
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list<CTransaction> transactionsToRemove;
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for (std::map<uint256, CTxMemPoolEntry>::const_iterator it = mapTx.begin(); it != mapTx.end(); it++) {
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const CTransaction& tx = it->second.GetTx();
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BOOST_FOREACH(const CTxIn& txin, tx.vin) {
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std::map<uint256, CTxMemPoolEntry>::const_iterator it2 = mapTx.find(txin.prevout.hash);
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if (it2 != mapTx.end())
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continue;
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const CCoins *coins = pcoins->AccessCoins(txin.prevout.hash);
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if (fSanityCheck) assert(coins);
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if (!coins || (coins->IsCoinBase() && ((signed long)nMemPoolHeight) - coins->nHeight < COINBASE_MATURITY)) {
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transactionsToRemove.push_back(tx);
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break;
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}
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}
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}
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BOOST_FOREACH(const CTransaction& tx, transactionsToRemove) {
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list<CTransaction> removed;
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remove(tx, removed, true);
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}
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}
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void CTxMemPool::removeConflicts(const CTransaction &tx, std::list<CTransaction>& removed)
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{
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// Remove transactions which depend on inputs of tx, recursively
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list<CTransaction> result;
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LOCK(cs);
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BOOST_FOREACH(const CTxIn &txin, tx.vin) {
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std::map<COutPoint, CInPoint>::iterator it = mapNextTx.find(txin.prevout);
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if (it != mapNextTx.end()) {
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const CTransaction &txConflict = *it->second.ptx;
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if (txConflict != tx)
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{
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remove(txConflict, removed, true);
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}
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}
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}
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}
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/**
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* Called when a block is connected. Removes from mempool and updates the miner fee estimator.
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*/
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void CTxMemPool::removeForBlock(const std::vector<CTransaction>& vtx, unsigned int nBlockHeight,
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std::list<CTransaction>& conflicts, bool fCurrentEstimate)
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{
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LOCK(cs);
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std::vector<CTxMemPoolEntry> entries;
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BOOST_FOREACH(const CTransaction& tx, vtx)
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{
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uint256 hash = tx.GetHash();
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if (mapTx.count(hash))
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entries.push_back(mapTx[hash]);
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}
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BOOST_FOREACH(const CTransaction& tx, vtx)
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{
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std::list<CTransaction> dummy;
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remove(tx, dummy, false);
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removeConflicts(tx, conflicts);
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ClearPrioritisation(tx.GetHash());
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}
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// After the txs in the new block have been removed from the mempool, update policy estimates
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minerPolicyEstimator->processBlock(nBlockHeight, entries, fCurrentEstimate);
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}
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void CTxMemPool::clear()
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{
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LOCK(cs);
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mapTx.clear();
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mapNextTx.clear();
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totalTxSize = 0;
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cachedInnerUsage = 0;
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++nTransactionsUpdated;
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}
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void CTxMemPool::check(const CCoinsViewCache *pcoins) const
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{
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if (!fSanityCheck)
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return;
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LogPrint("mempool", "Checking mempool with %u transactions and %u inputs\n", (unsigned int)mapTx.size(), (unsigned int)mapNextTx.size());
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uint64_t checkTotal = 0;
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uint64_t innerUsage = 0;
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CCoinsViewCache mempoolDuplicate(const_cast<CCoinsViewCache*>(pcoins));
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LOCK(cs);
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list<const CTxMemPoolEntry*> waitingOnDependants;
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for (std::map<uint256, CTxMemPoolEntry>::const_iterator it = mapTx.begin(); it != mapTx.end(); it++) {
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unsigned int i = 0;
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checkTotal += it->second.GetTxSize();
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innerUsage += it->second.DynamicMemoryUsage();
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const CTransaction& tx = it->second.GetTx();
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bool fDependsWait = false;
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BOOST_FOREACH(const CTxIn &txin, tx.vin) {
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// Check that every mempool transaction's inputs refer to available coins, or other mempool tx's.
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std::map<uint256, CTxMemPoolEntry>::const_iterator it2 = mapTx.find(txin.prevout.hash);
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if (it2 != mapTx.end()) {
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const CTransaction& tx2 = it2->second.GetTx();
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assert(tx2.vout.size() > txin.prevout.n && !tx2.vout[txin.prevout.n].IsNull());
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fDependsWait = true;
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} else {
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const CCoins* coins = pcoins->AccessCoins(txin.prevout.hash);
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assert(coins && coins->IsAvailable(txin.prevout.n));
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}
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// Check whether its inputs are marked in mapNextTx.
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std::map<COutPoint, CInPoint>::const_iterator it3 = mapNextTx.find(txin.prevout);
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assert(it3 != mapNextTx.end());
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assert(it3->second.ptx == &tx);
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assert(it3->second.n == i);
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i++;
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}
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if (fDependsWait)
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waitingOnDependants.push_back(&it->second);
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else {
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CValidationState state;
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assert(CheckInputs(tx, state, mempoolDuplicate, false, 0, false, NULL));
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UpdateCoins(tx, state, mempoolDuplicate, 1000000);
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}
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}
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unsigned int stepsSinceLastRemove = 0;
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while (!waitingOnDependants.empty()) {
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const CTxMemPoolEntry* entry = waitingOnDependants.front();
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waitingOnDependants.pop_front();
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CValidationState state;
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if (!mempoolDuplicate.HaveInputs(entry->GetTx())) {
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waitingOnDependants.push_back(entry);
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stepsSinceLastRemove++;
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assert(stepsSinceLastRemove < waitingOnDependants.size());
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} else {
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assert(CheckInputs(entry->GetTx(), state, mempoolDuplicate, false, 0, false, NULL));
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UpdateCoins(entry->GetTx(), state, mempoolDuplicate, 1000000);
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stepsSinceLastRemove = 0;
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}
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}
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for (std::map<COutPoint, CInPoint>::const_iterator it = mapNextTx.begin(); it != mapNextTx.end(); it++) {
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uint256 hash = it->second.ptx->GetHash();
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map<uint256, CTxMemPoolEntry>::const_iterator it2 = mapTx.find(hash);
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const CTransaction& tx = it2->second.GetTx();
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assert(it2 != mapTx.end());
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assert(&tx == it->second.ptx);
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assert(tx.vin.size() > it->second.n);
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assert(it->first == it->second.ptx->vin[it->second.n].prevout);
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}
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assert(totalTxSize == checkTotal);
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assert(innerUsage == cachedInnerUsage);
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}
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void CTxMemPool::queryHashes(vector<uint256>& vtxid)
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{
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vtxid.clear();
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LOCK(cs);
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vtxid.reserve(mapTx.size());
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for (map<uint256, CTxMemPoolEntry>::iterator mi = mapTx.begin(); mi != mapTx.end(); ++mi)
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vtxid.push_back((*mi).first);
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}
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bool CTxMemPool::lookup(uint256 hash, CTransaction& result) const
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{
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LOCK(cs);
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map<uint256, CTxMemPoolEntry>::const_iterator i = mapTx.find(hash);
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if (i == mapTx.end()) return false;
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result = i->second.GetTx();
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return true;
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}
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CFeeRate CTxMemPool::estimateFee(int nBlocks) const
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{
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LOCK(cs);
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return minerPolicyEstimator->estimateFee(nBlocks);
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}
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double CTxMemPool::estimatePriority(int nBlocks) const
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{
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LOCK(cs);
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return minerPolicyEstimator->estimatePriority(nBlocks);
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}
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bool
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CTxMemPool::WriteFeeEstimates(CAutoFile& fileout) const
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{
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try {
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LOCK(cs);
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fileout << 109900; // version required to read: 0.10.99 or later
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fileout << CLIENT_VERSION; // version that wrote the file
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minerPolicyEstimator->Write(fileout);
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}
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catch (const std::exception&) {
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LogPrintf("CTxMemPool::WriteFeeEstimates(): unable to write policy estimator data (non-fatal)");
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return false;
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}
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return true;
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}
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bool
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CTxMemPool::ReadFeeEstimates(CAutoFile& filein)
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{
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try {
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int nVersionRequired, nVersionThatWrote;
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filein >> nVersionRequired >> nVersionThatWrote;
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if (nVersionRequired > CLIENT_VERSION)
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return error("CTxMemPool::ReadFeeEstimates(): up-version (%d) fee estimate file", nVersionRequired);
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LOCK(cs);
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minerPolicyEstimator->Read(filein);
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}
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catch (const std::exception&) {
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LogPrintf("CTxMemPool::ReadFeeEstimates(): unable to read policy estimator data (non-fatal)");
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return false;
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}
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return true;
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}
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void CTxMemPool::PrioritiseTransaction(const uint256 hash, const string strHash, double dPriorityDelta, const CAmount& nFeeDelta)
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{
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{
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LOCK(cs);
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std::pair<double, CAmount> &deltas = mapDeltas[hash];
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deltas.first += dPriorityDelta;
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deltas.second += nFeeDelta;
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}
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LogPrintf("PrioritiseTransaction: %s priority += %f, fee += %d\n", strHash, dPriorityDelta, FormatMoney(nFeeDelta));
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}
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void CTxMemPool::ApplyDeltas(const uint256 hash, double &dPriorityDelta, CAmount &nFeeDelta)
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{
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LOCK(cs);
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std::map<uint256, std::pair<double, CAmount> >::iterator pos = mapDeltas.find(hash);
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if (pos == mapDeltas.end())
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return;
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const std::pair<double, CAmount> &deltas = pos->second;
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dPriorityDelta += deltas.first;
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nFeeDelta += deltas.second;
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}
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void CTxMemPool::ClearPrioritisation(const uint256 hash)
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{
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LOCK(cs);
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mapDeltas.erase(hash);
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}
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bool CTxMemPool::HasNoInputsOf(const CTransaction &tx) const
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{
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for (unsigned int i = 0; i < tx.vin.size(); i++)
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if (exists(tx.vin[i].prevout.hash))
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return false;
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return true;
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}
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CCoinsViewMemPool::CCoinsViewMemPool(CCoinsView *baseIn, CTxMemPool &mempoolIn) : CCoinsViewBacked(baseIn), mempool(mempoolIn) { }
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bool CCoinsViewMemPool::GetCoins(const uint256 &txid, CCoins &coins) const {
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// If an entry in the mempool exists, always return that one, as it's guaranteed to never
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// conflict with the underlying cache, and it cannot have pruned entries (as it contains full)
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// transactions. First checking the underlying cache risks returning a pruned entry instead.
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CTransaction tx;
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if (mempool.lookup(txid, tx)) {
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coins = CCoins(tx, MEMPOOL_HEIGHT);
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return true;
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}
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return (base->GetCoins(txid, coins) && !coins.IsPruned());
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}
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bool CCoinsViewMemPool::HaveCoins(const uint256 &txid) const {
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return mempool.exists(txid) || base->HaveCoins(txid);
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}
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size_t CTxMemPool::DynamicMemoryUsage() const {
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LOCK(cs);
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return memusage::DynamicUsage(mapTx) + memusage::DynamicUsage(mapNextTx) + memusage::DynamicUsage(mapDeltas) + cachedInnerUsage;
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}
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