void CBlockPolicyEstimator::processTransaction(const CTxMemPoolEntry& entry, bool validFeeEstimate)
{
LOCK(cs_feeEstimator);
unsigned int txHeight = entry.GetHeight();
uint256 hash = entry.GetTx().GetHash();
if (mapMemPoolTxs.count(hash)) {
LogPrint(BCLog::ESTIMATEFEE, "Blockpolicy error mempool tx %s already being tracked\n",
hash.ToString().c_str());
return;
}
if (txHeight != nBestSeenHeight) {
// Ignore side chains and re-orgs; assuming they are random they don't
// affect the estimate. We'll potentially double count transactions in 1-block reorgs.
// Ignore txs if BlockPolicyEstimator is not in sync with chainActive.Tip().
// It will be synced next time a block is processed.
return;
}
// Only want to be updating estimates when our blockchain is synced,
// otherwise we'll miscalculate how many blocks its taking to get included.
if (!validFeeEstimate) {
untrackedTxs++;
return;
}
trackedTxs++;
// Feerates are stored and reported as BTC-per-kb:
CFeeRate feeRate(entry.GetFee(), entry.GetTxSize());
mapMemPoolTxs[hash].blockHeight = txHeight;
mapMemPoolTxs[hash].bucketIndex = feeStats->NewTx(txHeight, (double)feeRate.GetFeePerK());
}
bool CBlockPolicyEstimator::processBlockTx(unsigned int nBlockHeight, const CTxMemPoolEntry* entry)
{
if (!removeTx(entry->GetTx().GetHash(), true)) {
// This transaction wasn't being tracked for fee estimation
return false;
}
// How many blocks did it take for miners to include this transaction?
// blocksToConfirm is 1-based, so a transaction included in the earliest
// possible block has confirmation count of 1
int blocksToConfirm = nBlockHeight - entry->GetHeight();
if (blocksToConfirm <= 0) {
// This can't happen because we don't process transactions from a block with a height
// lower than our greatest seen height
LogPrint(BCLog::ESTIMATEFEE, "Blockpolicy error Transaction had negative blocksToConfirm\n");
return false;
}
// Feerates are stored and reported as DGB-per-kb:
CFeeRate feeRate(entry->GetFee(), entry->GetTxSize());
feeStats->Record(blocksToConfirm, (double)feeRate.GetFeePerK());
shortStats->Record(blocksToConfirm, (double)feeRate.GetFeePerK());
longStats->Record(blocksToConfirm, (double)feeRate.GetFeePerK());
return true;
}
void CBlockPolicyEstimator::processTransaction(const CTxMemPoolEntry& entry, bool fCurrentEstimate)
{
unsigned int txHeight = entry.GetHeight();
uint256 hash = entry.GetTx().GetHash();
if (mapMemPoolTxs[hash].stats != NULL) {
LogPrint("estimatefee", "Blockpolicy error mempool tx %s already being tracked\n",
hash.ToString().c_str());
return;
}
if (txHeight < nBestSeenHeight) {
// Ignore side chains and re-orgs; assuming they are random they don't
// affect the estimate. We'll potentially double count transactions in 1-block reorgs.
return;
}
// Only want to be updating estimates when our blockchain is synced,
// otherwise we'll miscalculate how many blocks its taking to get included.
if (!fCurrentEstimate)
return;
if (!entry.WasClearAtEntry()) {
// This transaction depends on other transactions in the mempool to
// be included in a block before it will be able to be included, so
// we shouldn't include it in our calculations
return;
}
// Fees are stored and reported as XRE-per-kb:
CFeeRate feeRate(entry.GetFee(), entry.GetTxSize());
// Want the priority of the tx at confirmation. However we don't know
// what that will be and its too hard to continue updating it
// so use starting priority as a proxy
double curPri = entry.GetPriority(txHeight);
mapMemPoolTxs[hash].blockHeight = txHeight;
LogPrint("estimatefee", "Blockpolicy mempool tx %s ", hash.ToString().substr(0,10));
// Record this as a priority estimate
if (entry.GetFee() == 0 || isPriDataPoint(feeRate, curPri)) {
mapMemPoolTxs[hash].stats = &priStats;
mapMemPoolTxs[hash].bucketIndex = priStats.NewTx(txHeight, curPri);
}
// Record this as a fee estimate
else if (isFeeDataPoint(feeRate, curPri)) {
mapMemPoolTxs[hash].stats = &feeStats;
mapMemPoolTxs[hash].bucketIndex = feeStats.NewTx(txHeight, (double)feeRate.GetFeePerK());
}
else {
LogPrint("estimatefee", "not adding");
}
LogPrint("estimatefee", "\n");
}
void CBlockPolicyEstimator::processBlockTx(unsigned int nBlockHeight, const CTxMemPoolEntry& entry)
{
if (!entry.WasClearAtEntry()) {
// This transaction depended on other transactions in the mempool to
// be included in a block before it was able to be included, so
// we shouldn't include it in our calculations
return;
}
// How many blocks did it take for miners to include this transaction?
// blocksToConfirm is 1-based, so a transaction included in the earliest
// possible block has confirmation count of 1
int blocksToConfirm = nBlockHeight - entry.GetHeight();
if (blocksToConfirm <= 0) {
// This can't happen because we don't process transactions from a block with a height
// lower than our greatest seen height
LogPrint("estimatefee", "Blockpolicy error Transaction had negative blocksToConfirm\n");
return;
}
// Fees are stored and reported as XRE-per-kb:
CFeeRate feeRate(entry.GetFee(), entry.GetTxSize());
// Want the priority of the tx at confirmation. The priority when it
// entered the mempool could easily be very small and change quickly
double curPri = entry.GetPriority(nBlockHeight);
// Record this as a priority estimate
if (entry.GetFee() == 0 || isPriDataPoint(feeRate, curPri)) {
priStats.Record(blocksToConfirm, curPri);
}
// Record this as a fee estimate
else if (isFeeDataPoint(feeRate, curPri)) {
feeStats.Record(blocksToConfirm, (double)feeRate.GetFeePerK());
}
}
