forked from cerc-io/ipld-eth-server
560305f601
- uses newer version of go-ethereum required for go1.11
425 lines
11 KiB
Go
425 lines
11 KiB
Go
// Copyright (c) 2016 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package mempool
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import (
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"bytes"
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"math/rand"
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"testing"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/mining"
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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)
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// newTestFeeEstimator creates a feeEstimator with some different parameters
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// for testing purposes.
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func newTestFeeEstimator(binSize, maxReplacements, maxRollback uint32) *FeeEstimator {
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return &FeeEstimator{
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maxRollback: maxRollback,
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lastKnownHeight: 0,
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binSize: int32(binSize),
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minRegisteredBlocks: 0,
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maxReplacements: int32(maxReplacements),
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observed: make(map[chainhash.Hash]*observedTransaction),
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dropped: make([]*registeredBlock, 0, maxRollback),
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}
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}
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// lastBlock is a linked list of the block hashes which have been
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// processed by the test FeeEstimator.
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type lastBlock struct {
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hash *chainhash.Hash
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prev *lastBlock
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}
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// estimateFeeTester interacts with the FeeEstimator to keep track
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// of its expected state.
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type estimateFeeTester struct {
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ef *FeeEstimator
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t *testing.T
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version int32
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height int32
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last *lastBlock
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}
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func (eft *estimateFeeTester) testTx(fee btcutil.Amount) *TxDesc {
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eft.version++
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return &TxDesc{
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TxDesc: mining.TxDesc{
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Tx: btcutil.NewTx(&wire.MsgTx{
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Version: eft.version,
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}),
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Height: eft.height,
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Fee: int64(fee),
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},
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StartingPriority: 0,
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}
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}
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func expectedFeePerKilobyte(t *TxDesc) BtcPerKilobyte {
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size := float64(t.TxDesc.Tx.MsgTx().SerializeSize())
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fee := float64(t.TxDesc.Fee)
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return SatoshiPerByte(fee / size).ToBtcPerKb()
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}
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func (eft *estimateFeeTester) newBlock(txs []*wire.MsgTx) {
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eft.height++
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block := btcutil.NewBlock(&wire.MsgBlock{
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Transactions: txs,
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})
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block.SetHeight(eft.height)
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eft.last = &lastBlock{block.Hash(), eft.last}
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eft.ef.RegisterBlock(block)
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}
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func (eft *estimateFeeTester) rollback() {
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if eft.last == nil {
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return
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}
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err := eft.ef.Rollback(eft.last.hash)
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if err != nil {
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eft.t.Errorf("Could not rollback: %v", err)
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}
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eft.height--
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eft.last = eft.last.prev
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}
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// TestEstimateFee tests basic functionality in the FeeEstimator.
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func TestEstimateFee(t *testing.T) {
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ef := newTestFeeEstimator(5, 3, 1)
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eft := estimateFeeTester{ef: ef, t: t}
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// Try with no txs and get zero for all queries.
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expected := BtcPerKilobyte(0.0)
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f when estimator is empty; got %f", expected, estimated)
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}
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}
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// Now insert a tx.
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tx := eft.testTx(1000000)
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ef.ObserveTransaction(tx)
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// Expected should still be zero because this is still in the mempool.
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expected = BtcPerKilobyte(0.0)
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f when estimator has one tx in mempool; got %f", expected, estimated)
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}
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}
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// Change minRegisteredBlocks to make sure that works. Error return
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// value expected.
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ef.minRegisteredBlocks = 1
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expected = BtcPerKilobyte(-1.0)
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f before any blocks have been registered; got %f", expected, estimated)
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}
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}
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// Record a block with the new tx.
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eft.newBlock([]*wire.MsgTx{tx.Tx.MsgTx()})
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expected = expectedFeePerKilobyte(tx)
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f when one tx is binned; got %f", expected, estimated)
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}
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}
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// Roll back the last block; this was an orphan block.
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ef.minRegisteredBlocks = 0
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eft.rollback()
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expected = BtcPerKilobyte(0.0)
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f after rolling back block; got %f", expected, estimated)
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}
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}
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// Record an empty block and then a block with the new tx.
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// This test was made because of a bug that only appeared when there
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// were no transactions in the first bin.
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eft.newBlock([]*wire.MsgTx{})
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eft.newBlock([]*wire.MsgTx{tx.Tx.MsgTx()})
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expected = expectedFeePerKilobyte(tx)
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f when one tx is binned; got %f", expected, estimated)
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}
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}
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// Create some more transactions.
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txA := eft.testTx(500000)
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txB := eft.testTx(2000000)
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txC := eft.testTx(4000000)
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ef.ObserveTransaction(txA)
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ef.ObserveTransaction(txB)
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ef.ObserveTransaction(txC)
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// Record 7 empty blocks.
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for i := 0; i < 7; i++ {
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eft.newBlock([]*wire.MsgTx{})
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}
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// Mine the first tx.
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eft.newBlock([]*wire.MsgTx{txA.Tx.MsgTx()})
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// Now the estimated amount should depend on the value
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// of the argument to estimate fee.
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if i > 2 {
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expected = expectedFeePerKilobyte(txA)
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} else {
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expected = expectedFeePerKilobyte(tx)
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}
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f on round %d; got %f", expected, i, estimated)
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}
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}
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// Record 5 more empty blocks.
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for i := 0; i < 5; i++ {
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eft.newBlock([]*wire.MsgTx{})
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}
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// Mine the next tx.
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eft.newBlock([]*wire.MsgTx{txB.Tx.MsgTx()})
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// Now the estimated amount should depend on the value
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// of the argument to estimate fee.
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if i <= 2 {
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expected = expectedFeePerKilobyte(txB)
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} else if i <= 8 {
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expected = expectedFeePerKilobyte(tx)
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} else {
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expected = expectedFeePerKilobyte(txA)
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}
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f on round %d; got %f", expected, i, estimated)
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}
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}
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// Record 9 more empty blocks.
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for i := 0; i < 10; i++ {
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eft.newBlock([]*wire.MsgTx{})
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}
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// Mine txC.
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eft.newBlock([]*wire.MsgTx{txC.Tx.MsgTx()})
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// This should have no effect on the outcome because too
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// many blocks have been mined for txC to be recorded.
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for i := uint32(1); i <= estimateFeeDepth; i++ {
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estimated, _ := ef.EstimateFee(i)
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if i <= 2 {
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expected = expectedFeePerKilobyte(txC)
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} else if i <= 8 {
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expected = expectedFeePerKilobyte(txB)
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} else if i <= 8+6 {
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expected = expectedFeePerKilobyte(tx)
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} else {
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expected = expectedFeePerKilobyte(txA)
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}
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if estimated != expected {
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t.Errorf("Estimate fee error: expected %f on round %d; got %f", expected, i, estimated)
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}
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}
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}
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func (eft *estimateFeeTester) estimates() [estimateFeeDepth]BtcPerKilobyte {
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// Generate estimates
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var estimates [estimateFeeDepth]BtcPerKilobyte
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for i := 0; i < estimateFeeDepth; i++ {
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estimates[i], _ = eft.ef.EstimateFee(uint32(i + 1))
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}
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// Check that all estimated fee results go in descending order.
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for i := 1; i < estimateFeeDepth; i++ {
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if estimates[i] > estimates[i-1] {
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eft.t.Error("Estimates not in descending order; got ",
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estimates[i], " for estimate ", i, " and ", estimates[i-1], " for ", (i - 1))
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panic("invalid state.")
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}
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}
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return estimates
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}
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func (eft *estimateFeeTester) round(txHistory [][]*TxDesc,
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estimateHistory [][estimateFeeDepth]BtcPerKilobyte,
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txPerRound, txPerBlock uint32) ([][]*TxDesc, [][estimateFeeDepth]BtcPerKilobyte) {
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// generate new txs.
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var newTxs []*TxDesc
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for i := uint32(0); i < txPerRound; i++ {
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newTx := eft.testTx(btcutil.Amount(rand.Intn(1000000)))
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eft.ef.ObserveTransaction(newTx)
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newTxs = append(newTxs, newTx)
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}
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// Generate mempool.
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mempool := make(map[*observedTransaction]*TxDesc)
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for _, h := range txHistory {
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for _, t := range h {
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if o, exists := eft.ef.observed[*t.Tx.Hash()]; exists && o.mined == mining.UnminedHeight {
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mempool[o] = t
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}
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}
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}
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// generate new block, with no duplicates.
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i := uint32(0)
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newBlockList := make([]*wire.MsgTx, 0, txPerBlock)
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for _, t := range mempool {
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newBlockList = append(newBlockList, t.TxDesc.Tx.MsgTx())
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i++
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if i == txPerBlock {
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break
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}
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}
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// Register a new block.
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eft.newBlock(newBlockList)
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// return results.
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estimates := eft.estimates()
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// Return results
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return append(txHistory, newTxs), append(estimateHistory, estimates)
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}
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// TestEstimateFeeRollback tests the rollback function, which undoes the
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// effect of a adding a new block.
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func TestEstimateFeeRollback(t *testing.T) {
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txPerRound := uint32(7)
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txPerBlock := uint32(5)
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binSize := uint32(6)
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maxReplacements := uint32(4)
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stepsBack := 2
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rounds := 30
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eft := estimateFeeTester{ef: newTestFeeEstimator(binSize, maxReplacements, uint32(stepsBack)), t: t}
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var txHistory [][]*TxDesc
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estimateHistory := [][estimateFeeDepth]BtcPerKilobyte{eft.estimates()}
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for round := 0; round < rounds; round++ {
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// Go forward a few rounds.
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for step := 0; step <= stepsBack; step++ {
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txHistory, estimateHistory =
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eft.round(txHistory, estimateHistory, txPerRound, txPerBlock)
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}
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// Now go back.
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for step := 0; step < stepsBack; step++ {
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eft.rollback()
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// After rolling back, we should have the same estimated
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// fees as before.
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expected := estimateHistory[len(estimateHistory)-step-2]
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estimates := eft.estimates()
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// Ensure that these are both the same.
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for i := 0; i < estimateFeeDepth; i++ {
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if expected[i] != estimates[i] {
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t.Errorf("Rollback value mismatch. Expected %f, got %f. ",
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expected[i], estimates[i])
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return
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}
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}
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}
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// Erase history.
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txHistory = txHistory[0 : len(txHistory)-stepsBack]
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estimateHistory = estimateHistory[0 : len(estimateHistory)-stepsBack]
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}
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}
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func (eft *estimateFeeTester) checkSaveAndRestore(
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previousEstimates [estimateFeeDepth]BtcPerKilobyte) {
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// Get the save state.
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save := eft.ef.Save()
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// Save and restore database.
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var err error
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eft.ef, err = RestoreFeeEstimator(save)
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if err != nil {
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eft.t.Fatalf("Could not restore database: %s", err)
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}
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// Save again and check that it matches the previous one.
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redo := eft.ef.Save()
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if !bytes.Equal(save, redo) {
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eft.t.Fatalf("Restored states do not match: %v %v", save, redo)
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}
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// Check that the results match.
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newEstimates := eft.estimates()
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for i, prev := range previousEstimates {
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if prev != newEstimates[i] {
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eft.t.Error("Mismatch in estimate ", i, " after restore; got ", newEstimates[i], " but expected ", prev)
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}
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}
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}
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// TestSave tests saving and restoring to a []byte.
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func TestDatabase(t *testing.T) {
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txPerRound := uint32(7)
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txPerBlock := uint32(5)
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binSize := uint32(6)
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maxReplacements := uint32(4)
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rounds := 8
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eft := estimateFeeTester{ef: newTestFeeEstimator(binSize, maxReplacements, uint32(rounds)+1), t: t}
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var txHistory [][]*TxDesc
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estimateHistory := [][estimateFeeDepth]BtcPerKilobyte{eft.estimates()}
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for round := 0; round < rounds; round++ {
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eft.checkSaveAndRestore(estimateHistory[len(estimateHistory)-1])
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// Go forward one step.
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txHistory, estimateHistory =
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eft.round(txHistory, estimateHistory, txPerRound, txPerBlock)
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}
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// Reverse the process and try again.
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for round := 1; round <= rounds; round++ {
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eft.rollback()
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eft.checkSaveAndRestore(estimateHistory[len(estimateHistory)-round-1])
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}
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}
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