416 lines
13 KiB
Go
416 lines
13 KiB
Go
package lnwallet
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import (
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"encoding/json"
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"github.com/btcsuite/btcd/blockchain"
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"github.com/btcsuite/btcd/rpcclient"
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"github.com/btcsuite/btcutil"
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)
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const (
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// FeePerKwFloor is the lowest fee rate in sat/kw that we should use for
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// determining transaction fees.
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FeePerKwFloor SatPerKWeight = 253
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)
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// SatPerKVByte represents a fee rate in sat/kb.
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type SatPerKVByte btcutil.Amount
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// FeeForVSize calculates the fee resulting from this fee rate and the given
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// vsize in vbytes.
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func (s SatPerKVByte) FeeForVSize(vbytes int64) btcutil.Amount {
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return btcutil.Amount(s) * btcutil.Amount(vbytes) / 1000
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}
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// FeePerKWeight converts the current fee rate from sat/kb to sat/kw.
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func (s SatPerKVByte) FeePerKWeight() SatPerKWeight {
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return SatPerKWeight(s / blockchain.WitnessScaleFactor)
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}
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// SatPerKWeight represents a fee rate in sat/kw.
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type SatPerKWeight btcutil.Amount
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// FeeForWeight calculates the fee resulting from this fee rate and the given
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// weight in weight units (wu).
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func (s SatPerKWeight) FeeForWeight(wu int64) btcutil.Amount {
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// The resulting fee is rounded down, as specified in BOLT#03.
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return btcutil.Amount(s) * btcutil.Amount(wu) / 1000
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}
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// FeePerKVByte converts the current fee rate from sat/kw to sat/kb.
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func (s SatPerKWeight) FeePerKVByte() SatPerKVByte {
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return SatPerKVByte(s * blockchain.WitnessScaleFactor)
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}
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// FeeEstimator provides the ability to estimate on-chain transaction fees for
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// various combinations of transaction sizes and desired confirmation time
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// (measured by number of blocks).
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type FeeEstimator interface {
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// EstimateFeePerKW takes in a target for the number of blocks until an
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// initial confirmation and returns the estimated fee expressed in
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// sat/kw.
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EstimateFeePerKW(numBlocks uint32) (SatPerKWeight, error)
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// Start signals the FeeEstimator to start any processes or goroutines
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// it needs to perform its duty.
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Start() error
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// Stop stops any spawned goroutines and cleans up the resources used
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// by the fee estimator.
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Stop() error
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}
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// StaticFeeEstimator will return a static value for all fee calculation
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// requests. It is designed to be replaced by a proper fee calculation
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// implementation.
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type StaticFeeEstimator struct {
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// FeePerKW is the static fee rate in satoshis-per-vbyte that will be
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// returned by this fee estimator.
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FeePerKW SatPerKWeight
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}
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// EstimateFeePerKW will return a static value for fee calculations.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (e StaticFeeEstimator) EstimateFeePerKW(numBlocks uint32) (SatPerKWeight, error) {
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return e.FeePerKW, nil
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}
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// Start signals the FeeEstimator to start any processes or goroutines
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// it needs to perform its duty.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (e StaticFeeEstimator) Start() error {
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return nil
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}
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// Stop stops any spawned goroutines and cleans up the resources used
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// by the fee estimator.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (e StaticFeeEstimator) Stop() error {
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return nil
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}
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// A compile-time assertion to ensure that StaticFeeEstimator implements the
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// FeeEstimator interface.
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var _ FeeEstimator = (*StaticFeeEstimator)(nil)
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// BtcdFeeEstimator is an implementation of the FeeEstimator interface backed
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// by the RPC interface of an active btcd node. This implementation will proxy
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// any fee estimation requests to btcd's RPC interface.
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type BtcdFeeEstimator struct {
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// fallbackFeePerKW is the fall back fee rate in sat/kw that is returned
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// if the fee estimator does not yet have enough data to actually
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// produce fee estimates.
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fallbackFeePerKW SatPerKWeight
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// minFeePerKW is the minimum fee, in sat/kw, that we should enforce.
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// This will be used as the default fee rate for a transaction when the
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// estimated fee rate is too low to allow the transaction to propagate
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// through the network.
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minFeePerKW SatPerKWeight
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btcdConn *rpcclient.Client
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}
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// NewBtcdFeeEstimator creates a new BtcdFeeEstimator given a fully populated
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// rpc config that is able to successfully connect and authenticate with the
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// btcd node, and also a fall back fee rate. The fallback fee rate is used in
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// the occasion that the estimator has insufficient data, or returns zero for a
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// fee estimate.
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func NewBtcdFeeEstimator(rpcConfig rpcclient.ConnConfig,
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fallBackFeeRate SatPerKWeight) (*BtcdFeeEstimator, error) {
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rpcConfig.DisableConnectOnNew = true
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rpcConfig.DisableAutoReconnect = false
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chainConn, err := rpcclient.New(&rpcConfig, nil)
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if err != nil {
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return nil, err
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}
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return &BtcdFeeEstimator{
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fallbackFeePerKW: fallBackFeeRate,
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btcdConn: chainConn,
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}, nil
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}
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// Start signals the FeeEstimator to start any processes or goroutines
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// it needs to perform its duty.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (b *BtcdFeeEstimator) Start() error {
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if err := b.btcdConn.Connect(20); err != nil {
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return err
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}
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// Once the connection to the backend node has been established, we'll
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// query it for its minimum relay fee.
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info, err := b.btcdConn.GetInfo()
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if err != nil {
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return err
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}
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relayFee, err := btcutil.NewAmount(info.RelayFee)
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if err != nil {
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return err
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}
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// The fee rate is expressed in sat/kb, so we'll manually convert it to
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// our desired sat/kw rate.
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minRelayFeePerKw := SatPerKVByte(relayFee).FeePerKWeight()
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// By default, we'll use the backend node's minimum relay fee as the
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// minimum fee rate we'll propose for transacations. However, if this
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// happens to be lower than our fee floor, we'll enforce that instead.
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b.minFeePerKW = minRelayFeePerKw
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if b.minFeePerKW < FeePerKwFloor {
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b.minFeePerKW = FeePerKwFloor
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}
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walletLog.Debugf("Using minimum fee rate of %v sat/kw",
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int64(b.minFeePerKW))
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return nil
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}
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// Stop stops any spawned goroutines and cleans up the resources used
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// by the fee estimator.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (b *BtcdFeeEstimator) Stop() error {
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b.btcdConn.Shutdown()
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return nil
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}
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// EstimateFeePerKW takes in a target for the number of blocks until an initial
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// confirmation and returns the estimated fee expressed in sat/kw.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (b *BtcdFeeEstimator) EstimateFeePerKW(numBlocks uint32) (SatPerKWeight, error) {
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feeEstimate, err := b.fetchEstimate(numBlocks)
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switch {
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// If the estimator doesn't have enough data, or returns an error, then
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// to return a proper value, then we'll return the default fall back
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// fee rate.
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case err != nil:
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walletLog.Errorf("unable to query estimator: %v", err)
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fallthrough
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case feeEstimate == 0:
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return b.fallbackFeePerKW, nil
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}
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return feeEstimate, nil
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}
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// fetchEstimate returns a fee estimate for a transaction to be confirmed in
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// confTarget blocks. The estimate is returned in sat/kw.
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func (b *BtcdFeeEstimator) fetchEstimate(confTarget uint32) (SatPerKWeight, error) {
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// First, we'll fetch the estimate for our confirmation target.
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btcPerKB, err := b.btcdConn.EstimateFee(int64(confTarget))
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if err != nil {
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return 0, err
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}
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// Next, we'll convert the returned value to satoshis, as it's
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// currently returned in BTC.
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satPerKB, err := btcutil.NewAmount(btcPerKB)
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if err != nil {
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return 0, err
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}
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// Since we use fee rates in sat/kw internally, we'll convert the
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// estimated fee rate from its sat/kb representation to sat/kw.
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satPerKw := SatPerKVByte(satPerKB).FeePerKWeight()
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// Finally, we'll enforce our fee floor.
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if satPerKw < b.minFeePerKW {
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walletLog.Debugf("Estimated fee rate of %v sat/kw is too low, "+
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"using fee floor of %v sat/kw instead", b.minFeePerKW)
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satPerKw = b.minFeePerKW
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}
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walletLog.Debugf("Returning %v sat/kw for conf target of %v",
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int64(satPerKw), confTarget)
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return satPerKw, nil
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}
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// A compile-time assertion to ensure that BtcdFeeEstimator implements the
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// FeeEstimator interface.
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var _ FeeEstimator = (*BtcdFeeEstimator)(nil)
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// BitcoindFeeEstimator is an implementation of the FeeEstimator interface
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// backed by the RPC interface of an active bitcoind node. This implementation
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// will proxy any fee estimation requests to bitcoind's RPC interface.
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type BitcoindFeeEstimator struct {
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// fallbackFeePerKW is the fallback fee rate in sat/kw that is returned
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// if the fee estimator does not yet have enough data to actually
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// produce fee estimates.
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fallbackFeePerKW SatPerKWeight
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// minFeePerKW is the minimum fee, in sat/kw, that we should enforce.
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// This will be used as the default fee rate for a transaction when the
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// estimated fee rate is too low to allow the transaction to propagate
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// through the network.
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minFeePerKW SatPerKWeight
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bitcoindConn *rpcclient.Client
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}
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// NewBitcoindFeeEstimator creates a new BitcoindFeeEstimator given a fully
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// populated rpc config that is able to successfully connect and authenticate
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// with the bitcoind node, and also a fall back fee rate. The fallback fee rate
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// is used in the occasion that the estimator has insufficient data, or returns
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// zero for a fee estimate.
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func NewBitcoindFeeEstimator(rpcConfig rpcclient.ConnConfig,
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fallBackFeeRate SatPerKWeight) (*BitcoindFeeEstimator, error) {
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rpcConfig.DisableConnectOnNew = true
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rpcConfig.DisableAutoReconnect = false
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rpcConfig.DisableTLS = true
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rpcConfig.HTTPPostMode = true
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chainConn, err := rpcclient.New(&rpcConfig, nil)
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if err != nil {
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return nil, err
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}
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return &BitcoindFeeEstimator{
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fallbackFeePerKW: fallBackFeeRate,
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bitcoindConn: chainConn,
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}, nil
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}
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// Start signals the FeeEstimator to start any processes or goroutines
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// it needs to perform its duty.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (b *BitcoindFeeEstimator) Start() error {
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// Once the connection to the backend node has been established, we'll
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// query it for its minimum relay fee. Since the `getinfo` RPC has been
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// deprecated for `bitcoind`, we'll need to send a `getnetworkinfo`
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// command as a raw request.
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resp, err := b.bitcoindConn.RawRequest("getnetworkinfo", nil)
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if err != nil {
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return err
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}
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// Parse the response to retrieve the relay fee in sat/KB.
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info := struct {
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RelayFee float64 `json:"relayfee"`
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}{}
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if err := json.Unmarshal(resp, &info); err != nil {
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return err
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}
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relayFee, err := btcutil.NewAmount(info.RelayFee)
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if err != nil {
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return err
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}
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// The fee rate is expressed in sat/kb, so we'll manually convert it to
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// our desired sat/kw rate.
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minRelayFeePerKw := SatPerKVByte(relayFee).FeePerKWeight()
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// By default, we'll use the backend node's minimum relay fee as the
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// minimum fee rate we'll propose for transacations. However, if this
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// happens to be lower than our fee floor, we'll enforce that instead.
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b.minFeePerKW = minRelayFeePerKw
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if b.minFeePerKW < FeePerKwFloor {
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b.minFeePerKW = FeePerKwFloor
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}
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walletLog.Debugf("Using minimum fee rate of %v sat/kw",
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int64(b.minFeePerKW))
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return nil
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}
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// Stop stops any spawned goroutines and cleans up the resources used
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// by the fee estimator.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (b *BitcoindFeeEstimator) Stop() error {
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return nil
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}
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// EstimateFeePerKW takes in a target for the number of blocks until an initial
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// confirmation and returns the estimated fee expressed in sat/kw.
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//
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// NOTE: This method is part of the FeeEstimator interface.
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func (b *BitcoindFeeEstimator) EstimateFeePerKW(numBlocks uint32) (SatPerKWeight, error) {
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feeEstimate, err := b.fetchEstimate(numBlocks)
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switch {
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// If the estimator doesn't have enough data, or returns an error, then
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// to return a proper value, then we'll return the default fall back
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// fee rate.
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case err != nil:
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walletLog.Errorf("unable to query estimator: %v", err)
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fallthrough
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case feeEstimate == 0:
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return b.fallbackFeePerKW, nil
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}
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return feeEstimate, nil
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}
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// fetchEstimate returns a fee estimate for a transaction to be confirmed in
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// confTarget blocks. The estimate is returned in sat/kw.
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func (b *BitcoindFeeEstimator) fetchEstimate(confTarget uint32) (SatPerKWeight, error) {
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// First, we'll send an "estimatesmartfee" command as a raw request,
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// since it isn't supported by btcd but is available in bitcoind.
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target, err := json.Marshal(uint64(confTarget))
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if err != nil {
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return 0, err
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}
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// TODO: Allow selection of economical/conservative modifiers.
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resp, err := b.bitcoindConn.RawRequest(
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"estimatesmartfee", []json.RawMessage{target},
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)
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if err != nil {
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return 0, err
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}
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// Next, we'll parse the response to get the BTC per KB.
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feeEstimate := struct {
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FeeRate float64 `json:"feerate"`
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}{}
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err = json.Unmarshal(resp, &feeEstimate)
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if err != nil {
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return 0, err
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}
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// Next, we'll convert the returned value to satoshis, as it's currently
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// returned in BTC.
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satPerKB, err := btcutil.NewAmount(feeEstimate.FeeRate)
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if err != nil {
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return 0, err
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}
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// Since we use fee rates in sat/kw internally, we'll convert the
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// estimated fee rate from its sat/kb representation to sat/kw.
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satPerKw := SatPerKVByte(satPerKB).FeePerKWeight()
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// Finally, we'll enforce our fee floor.
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if satPerKw < b.minFeePerKW {
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walletLog.Debugf("Estimated fee rate of %v sat/kw is too low, "+
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"using fee floor of %v sat/kw instead", satPerKw,
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b.minFeePerKW)
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satPerKw = b.minFeePerKW
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}
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walletLog.Debugf("Returning %v sat/kw for conf target of %v",
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int64(satPerKw), confTarget)
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return satPerKw, nil
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}
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// A compile-time assertion to ensure that BitcoindFeeEstimator implements the
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// FeeEstimator interface.
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var _ FeeEstimator = (*BitcoindFeeEstimator)(nil)
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