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Rewrite estimateSmartFee
Change the logic of estimateSmartFee to check a 60% threshold at half the target, a 85% threshold at the target and a 95% threshold at double the target. Always check the shortest time horizon possible and ensure that estimates are monotonically decreasing. Add a conservative mode, which makes sure that the 95% threshold is also met at longer time horizons as well.
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@ -658,31 +658,107 @@ CFeeRate CBlockPolicyEstimator::estimateRawFee(int confTarget, double successThr
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return CFeeRate(median);
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}
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CFeeRate CBlockPolicyEstimator::estimateSmartFee(int confTarget, int *answerFoundAtTarget, const CTxMemPool& pool) const
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/** Return a fee estimate at the required successThreshold from the shortest
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* time horizon which tracks confirmations up to the desired target. If
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* checkShorterHorizon is requested, also allow short time horizon estimates
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* for a lower target to reduce the given answer */
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double CBlockPolicyEstimator::estimateCombinedFee(unsigned int confTarget, double successThreshold, bool checkShorterHorizon) const
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{
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double estimate = -1;
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if (confTarget >= 1 && confTarget <= longStats->GetMaxConfirms()) {
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// Find estimate from shortest time horizon possible
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if (confTarget <= shortStats->GetMaxConfirms()) { // short horizon
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estimate = shortStats->EstimateMedianVal(confTarget, SUFFICIENT_TXS_SHORT, successThreshold, true, nBestSeenHeight);
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}
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else if (confTarget <= feeStats->GetMaxConfirms()) { // medium horizon
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estimate = feeStats->EstimateMedianVal(confTarget, SUFFICIENT_FEETXS, successThreshold, true, nBestSeenHeight);
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}
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else { // long horizon
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estimate = longStats->EstimateMedianVal(confTarget, SUFFICIENT_FEETXS, successThreshold, true, nBestSeenHeight);
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}
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if (checkShorterHorizon) {
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// If a lower confTarget from a more recent horizon returns a lower answer use it.
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if (confTarget > feeStats->GetMaxConfirms()) {
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double medMax = feeStats->EstimateMedianVal(feeStats->GetMaxConfirms(), SUFFICIENT_FEETXS, successThreshold, true, nBestSeenHeight);
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if (medMax > 0 && (estimate == -1 || medMax < estimate))
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estimate = medMax;
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}
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if (confTarget > shortStats->GetMaxConfirms()) {
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double shortMax = shortStats->EstimateMedianVal(shortStats->GetMaxConfirms(), SUFFICIENT_TXS_SHORT, successThreshold, true, nBestSeenHeight);
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if (shortMax > 0 && (estimate == -1 || shortMax < estimate))
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estimate = shortMax;
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}
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}
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}
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return estimate;
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}
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double CBlockPolicyEstimator::estimateConservativeFee(unsigned int doubleTarget) const
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{
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double estimate = -1;
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if (doubleTarget <= shortStats->GetMaxConfirms()) {
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estimate = feeStats->EstimateMedianVal(doubleTarget, SUFFICIENT_FEETXS, DOUBLE_SUCCESS_PCT, true, nBestSeenHeight);
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}
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if (doubleTarget <= feeStats->GetMaxConfirms()) {
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double longEstimate = longStats->EstimateMedianVal(doubleTarget, SUFFICIENT_FEETXS, DOUBLE_SUCCESS_PCT, true, nBestSeenHeight);
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if (longEstimate > estimate) {
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estimate = longEstimate;
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}
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}
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return estimate;
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}
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CFeeRate CBlockPolicyEstimator::estimateSmartFee(int confTarget, int *answerFoundAtTarget, const CTxMemPool& pool, bool conservative) const
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{
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if (answerFoundAtTarget)
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*answerFoundAtTarget = confTarget;
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double median = -1;
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{
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LOCK(cs_feeEstimator);
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// Return failure if trying to analyze a target we're not tracking
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if (confTarget <= 0 || (unsigned int)confTarget > feeStats->GetMaxConfirms())
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if (confTarget <= 0 || (unsigned int)confTarget > longStats->GetMaxConfirms())
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return CFeeRate(0);
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// It's not possible to get reasonable estimates for confTarget of 1
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if (confTarget == 1)
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confTarget = 2;
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while (median < 0 && (unsigned int)confTarget <= feeStats->GetMaxConfirms()) {
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median = feeStats->EstimateMedianVal(confTarget++, SUFFICIENT_FEETXS, DOUBLE_SUCCESS_PCT, true, nBestSeenHeight);
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assert(confTarget > 0); //estimateCombinedFee and estimateConservativeFee take unsigned ints
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/** true is passed to estimateCombined fee for target/2 and target so
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* that we check the max confirms for shorter time horizons as well.
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* This is necessary to preserve monotonically increasing estimates.
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* For non-conservative estimates we do the same thing for 2*target, but
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* for conservative estimates we want to skip these shorter horizons
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* checks for 2*target becuase we are taking the max over all time
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* horizons so we already have monotonically increasing estimates and
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* the purpose of conservative estimates is not to let short term
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* fluctuations lower our estimates by too much.
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*/
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double halfEst = estimateCombinedFee(confTarget/2, HALF_SUCCESS_PCT, true);
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double actualEst = estimateCombinedFee(confTarget, SUCCESS_PCT, true);
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double doubleEst = estimateCombinedFee(2 * confTarget, DOUBLE_SUCCESS_PCT, !conservative);
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median = halfEst;
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if (actualEst > median) {
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median = actualEst;
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}
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if (doubleEst > median) {
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median = doubleEst;
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}
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if (conservative || median == -1) {
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double consEst = estimateConservativeFee(2 * confTarget);
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if (consEst > median) {
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median = consEst;
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}
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}
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} // Must unlock cs_feeEstimator before taking mempool locks
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if (answerFoundAtTarget)
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*answerFoundAtTarget = confTarget - 1;
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*answerFoundAtTarget = confTarget;
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// If mempool is limiting txs , return at least the min feerate from the mempool
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CAmount minPoolFee = pool.GetMinFee(GetArg("-maxmempool", DEFAULT_MAX_MEMPOOL_SIZE) * 1000000).GetFeePerK();
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@ -695,6 +771,7 @@ CFeeRate CBlockPolicyEstimator::estimateSmartFee(int confTarget, int *answerFoun
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return CFeeRate(median);
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}
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bool CBlockPolicyEstimator::Write(CAutoFile& fileout) const
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{
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try {
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@ -155,7 +155,7 @@ public:
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* confTarget blocks. If no answer can be given at confTarget, return an
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* estimate at the lowest target where one can be given.
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*/
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CFeeRate estimateSmartFee(int confTarget, int *answerFoundAtTarget, const CTxMemPool& pool) const;
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CFeeRate estimateSmartFee(int confTarget, int *answerFoundAtTarget, const CTxMemPool& pool, bool conservative = true) const;
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/** Return a specific fee estimate calculation with a given success threshold and time horizon.
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*/
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@ -199,6 +199,8 @@ private:
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/** Process a transaction confirmed in a block*/
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bool processBlockTx(unsigned int nBlockHeight, const CTxMemPoolEntry* entry);
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double estimateCombinedFee(unsigned int confTarget, double successThreshold, bool checkShorterHorizon) const;
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double estimateConservativeFee(unsigned int doubleTarget) const;
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};
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class FeeFilterRounder
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@ -106,6 +106,7 @@ static const CRPCConvertParam vRPCConvertParams[] =
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{ "getrawmempool", 0, "verbose" },
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{ "estimatefee", 0, "nblocks" },
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{ "estimatesmartfee", 0, "nblocks" },
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{ "estimatesmartfee", 1, "conservative" },
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{ "estimaterawfee", 0, "nblocks" },
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{ "estimaterawfee", 1, "threshold" },
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{ "estimaterawfee", 2, "horizon" },
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@ -828,16 +828,20 @@ UniValue estimatefee(const JSONRPCRequest& request)
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UniValue estimatesmartfee(const JSONRPCRequest& request)
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{
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if (request.fHelp || request.params.size() != 1)
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if (request.fHelp || request.params.size() < 1 || request.params.size() > 2)
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throw std::runtime_error(
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"estimatesmartfee nblocks\n"
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"estimatesmartfee nblocks (conservative)\n"
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"\nWARNING: This interface is unstable and may disappear or change!\n"
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"\nEstimates the approximate fee per kilobyte needed for a transaction to begin\n"
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"confirmation within nblocks blocks if possible and return the number of blocks\n"
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"for which the estimate is valid. Uses virtual transaction size as defined\n"
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"in BIP 141 (witness data is discounted).\n"
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"\nArguments:\n"
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"1. nblocks (numeric)\n"
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"1. nblocks (numeric)\n"
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"2. conservative (bool, optional, default=true) Whether to return a more conservative estimate which\n"
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" also satisfies a longer history. A conservative estimate potentially returns a higher\n"
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" feerate and is more likely to be sufficient for the desired target, but is not as\n"
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" responsive to short term drops in the prevailing fee market\n"
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"\nResult:\n"
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"{\n"
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" \"feerate\" : x.x, (numeric) estimate fee-per-kilobyte (in BTC)\n"
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@ -854,10 +858,15 @@ UniValue estimatesmartfee(const JSONRPCRequest& request)
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RPCTypeCheck(request.params, boost::assign::list_of(UniValue::VNUM));
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int nBlocks = request.params[0].get_int();
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bool conservative = true;
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if (request.params.size() > 1 && !request.params[1].isNull()) {
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RPCTypeCheckArgument(request.params[1], UniValue::VBOOL);
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conservative = request.params[1].get_bool();
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}
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UniValue result(UniValue::VOBJ);
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int answerFound;
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CFeeRate feeRate = ::feeEstimator.estimateSmartFee(nBlocks, &answerFound, ::mempool);
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CFeeRate feeRate = ::feeEstimator.estimateSmartFee(nBlocks, &answerFound, ::mempool, conservative);
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result.push_back(Pair("feerate", feeRate == CFeeRate(0) ? -1.0 : ValueFromAmount(feeRate.GetFeePerK())));
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result.push_back(Pair("blocks", answerFound));
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return result;
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@ -951,7 +960,7 @@ static const CRPCCommand commands[] =
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{ "generating", "generatetoaddress", &generatetoaddress, true, {"nblocks","address","maxtries"} },
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{ "util", "estimatefee", &estimatefee, true, {"nblocks"} },
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{ "util", "estimatesmartfee", &estimatesmartfee, true, {"nblocks"} },
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{ "util", "estimatesmartfee", &estimatesmartfee, true, {"nblocks", "conservative"} },
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{ "hidden", "estimaterawfee", &estimaterawfee, true, {"nblocks", "threshold", "horizon"} },
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};
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@ -83,11 +83,6 @@ BOOST_AUTO_TEST_CASE(BlockPolicyEstimates)
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BOOST_CHECK(feeEst.estimateFee(1) == CFeeRate(0));
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BOOST_CHECK(feeEst.estimateFee(2).GetFeePerK() < 9*baseRate.GetFeePerK() + deltaFee);
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BOOST_CHECK(feeEst.estimateFee(2).GetFeePerK() > 9*baseRate.GetFeePerK() - deltaFee);
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int answerFound;
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BOOST_CHECK(feeEst.estimateSmartFee(1, &answerFound, mpool) == feeEst.estimateFee(2) && answerFound == 2);
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BOOST_CHECK(feeEst.estimateSmartFee(2, &answerFound, mpool) == feeEst.estimateFee(2) && answerFound == 2);
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BOOST_CHECK(feeEst.estimateSmartFee(4, &answerFound, mpool) == feeEst.estimateFee(4) && answerFound == 4);
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BOOST_CHECK(feeEst.estimateSmartFee(8, &answerFound, mpool) == feeEst.estimateFee(8) && answerFound == 8);
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}
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}
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@ -143,10 +138,8 @@ BOOST_AUTO_TEST_CASE(BlockPolicyEstimates)
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mpool.removeForBlock(block, ++blocknum);
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}
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int answerFound;
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for (int i = 1; i < 10;i++) {
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BOOST_CHECK(feeEst.estimateFee(i) == CFeeRate(0) || feeEst.estimateFee(i).GetFeePerK() > origFeeEst[i-1] - deltaFee);
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BOOST_CHECK(feeEst.estimateSmartFee(i, &answerFound, mpool).GetFeePerK() > origFeeEst[answerFound-1] - deltaFee);
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}
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// Mine all those transactions
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@ -194,7 +187,7 @@ BOOST_AUTO_TEST_CASE(BlockPolicyEstimates)
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mpool.TrimToSize(1);
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BOOST_CHECK(mpool.GetMinFee(1).GetFeePerK() > feeV[5]);
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for (int i = 1; i < 10; i++) {
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BOOST_CHECK(feeEst.estimateSmartFee(i, NULL, mpool).GetFeePerK() >= feeEst.estimateFee(i).GetFeePerK());
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BOOST_CHECK(feeEst.estimateSmartFee(i, NULL, mpool).GetFeePerK() >= feeEst.estimateRawFee(i, 0.85, FeeEstimateHorizon::MED_HALFLIFE).GetFeePerK());
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BOOST_CHECK(feeEst.estimateSmartFee(i, NULL, mpool).GetFeePerK() >= mpool.GetMinFee(1).GetFeePerK());
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}
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}
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@ -116,8 +116,8 @@ def check_estimates(node, fees_seen, max_invalid, print_estimates = True):
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for i,e in enumerate(all_estimates): # estimate is for i+1
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if e >= 0:
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valid_estimate = True
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# estimatesmartfee should return the same result
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assert_equal(node.estimatesmartfee(i+1)["feerate"], e)
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if i >= 13: # for n>=14 estimatesmartfee(n/2) should be at least as high as estimatefee(n)
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assert(node.estimatesmartfee((i+1)//2)["feerate"] > float(e) - delta)
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else:
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invalid_estimates += 1
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