1ae306021e
This makes the rpctest package a subpackage of the integration package since its primary purpose is for integration testing.
489 lines
14 KiB
Go
489 lines
14 KiB
Go
// Copyright (c) 2013-2016 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 blockchain_test
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import (
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"bytes"
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"testing"
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"time"
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"github.com/btcsuite/btcd/blockchain"
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"github.com/btcsuite/btcd/btcec"
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"github.com/btcsuite/btcd/chaincfg"
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"github.com/btcsuite/btcd/chaincfg/chainhash"
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"github.com/btcsuite/btcd/integration/rpctest"
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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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// TestHaveBlock tests the HaveBlock API to ensure proper functionality.
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func TestHaveBlock(t *testing.T) {
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// Load up blocks such that there is a side chain.
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// (genesis block) -> 1 -> 2 -> 3 -> 4
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// \-> 3a
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testFiles := []string{
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"blk_0_to_4.dat.bz2",
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"blk_3A.dat.bz2",
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}
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var blocks []*btcutil.Block
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for _, file := range testFiles {
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blockTmp, err := loadBlocks(file)
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if err != nil {
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t.Errorf("Error loading file: %v\n", err)
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return
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}
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blocks = append(blocks, blockTmp...)
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}
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// Create a new database and chain instance to run tests against.
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chain, teardownFunc, err := chainSetup("haveblock",
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&chaincfg.MainNetParams)
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if err != nil {
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t.Errorf("Failed to setup chain instance: %v", err)
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return
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}
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defer teardownFunc()
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// Since we're not dealing with the real block chain, set the coinbase
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// maturity to 1.
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chain.TstSetCoinbaseMaturity(1)
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for i := 1; i < len(blocks); i++ {
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_, isOrphan, err := chain.ProcessBlock(blocks[i], blockchain.BFNone)
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if err != nil {
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t.Errorf("ProcessBlock fail on block %v: %v\n", i, err)
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return
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}
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if isOrphan {
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t.Errorf("ProcessBlock incorrectly returned block %v "+
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"is an orphan\n", i)
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return
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}
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}
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// Insert an orphan block.
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_, isOrphan, err := chain.ProcessBlock(btcutil.NewBlock(&Block100000),
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blockchain.BFNone)
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if err != nil {
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t.Errorf("Unable to process block: %v", err)
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return
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}
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if !isOrphan {
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t.Errorf("ProcessBlock indicated block is an not orphan when " +
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"it should be\n")
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return
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}
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tests := []struct {
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hash string
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want bool
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}{
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// Genesis block should be present (in the main chain).
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{hash: chaincfg.MainNetParams.GenesisHash.String(), want: true},
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// Block 3a should be present (on a side chain).
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{hash: "00000000474284d20067a4d33f6a02284e6ef70764a3a26d6a5b9df52ef663dd", want: true},
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// Block 100000 should be present (as an orphan).
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{hash: "000000000003ba27aa200b1cecaad478d2b00432346c3f1f3986da1afd33e506", want: true},
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// Random hashes should not be available.
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{hash: "123", want: false},
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}
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for i, test := range tests {
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hash, err := chainhash.NewHashFromStr(test.hash)
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if err != nil {
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t.Errorf("NewHashFromStr: %v", err)
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continue
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}
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result, err := chain.HaveBlock(hash)
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if err != nil {
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t.Errorf("HaveBlock #%d unexpected error: %v", i, err)
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return
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}
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if result != test.want {
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t.Errorf("HaveBlock #%d got %v want %v", i, result,
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test.want)
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continue
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}
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}
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}
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// TestCalcSequenceLock tests the LockTimeToSequence function, and the
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// CalcSequenceLock method of a Chain instance. The tests exercise several
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// combinations of inputs to the CalcSequenceLock function in order to ensure
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// the returned SequenceLocks are correct for each test instance.
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func TestCalcSequenceLock(t *testing.T) {
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netParams := &chaincfg.SimNetParams
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// Create a new database and chain instance to run tests against.
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chain, teardownFunc, err := chainSetup("calcseqlock", netParams)
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if err != nil {
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t.Errorf("Failed to setup chain instance: %v", err)
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return
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}
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defer teardownFunc()
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// Since we're not dealing with the real block chain, set the coinbase
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// maturity to 1.
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chain.TstSetCoinbaseMaturity(1)
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// Create a test mining address to use for the blocks we'll generate
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// shortly below.
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k := bytes.Repeat([]byte{1}, 32)
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_, miningPub := btcec.PrivKeyFromBytes(btcec.S256(), k)
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miningAddr, err := btcutil.NewAddressPubKey(miningPub.SerializeCompressed(),
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netParams)
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if err != nil {
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t.Fatalf("unable to generate mining addr: %v", err)
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}
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// We'll keep track of the previous block for back pointers in blocks
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// we generated, and also the generated blocks along with the MTP from
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// their PoV to aide with our relative time lock calculations.
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var prevBlock *btcutil.Block
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var blocksWithMTP []struct {
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block *btcutil.Block
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mtp time.Time
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}
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// We need to activate CSV in order to test the processing logic, so
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// manually craft the block version that's used to signal the soft-fork
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// activation.
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csvBit := netParams.Deployments[chaincfg.DeploymentCSV].BitNumber
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blockVersion := int32(0x20000000 | (uint32(1) << csvBit))
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// Generate enough blocks to activate CSV, collecting each of the
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// blocks into a slice for later use.
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numBlocksToActivate := (netParams.MinerConfirmationWindow * 3)
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for i := uint32(0); i < numBlocksToActivate; i++ {
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block, err := rpctest.CreateBlock(prevBlock, nil, blockVersion,
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time.Time{}, miningAddr, netParams)
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if err != nil {
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t.Fatalf("unable to generate block: %v", err)
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}
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mtp := chain.BestSnapshot().MedianTime
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_, isOrphan, err := chain.ProcessBlock(block, blockchain.BFNone)
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if err != nil {
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t.Fatalf("ProcessBlock fail on block %v: %v\n", i, err)
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}
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if isOrphan {
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t.Fatalf("ProcessBlock incorrectly returned block %v "+
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"is an orphan\n", i)
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}
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blocksWithMTP = append(blocksWithMTP, struct {
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block *btcutil.Block
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mtp time.Time
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}{
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block: block,
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mtp: mtp,
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})
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prevBlock = block
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}
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// Create a utxo view with all the utxos within the blocks created
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// above.
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utxoView := blockchain.NewUtxoViewpoint()
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for blockHeight, blockWithMTP := range blocksWithMTP {
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for _, tx := range blockWithMTP.block.Transactions() {
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utxoView.AddTxOuts(tx, int32(blockHeight))
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}
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}
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utxoView.SetBestHash(blocksWithMTP[len(blocksWithMTP)-1].block.Hash())
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// The median time calculated from the PoV of the best block in our
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// test chain. For unconfirmed inputs, this value will be used since
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// the MTP will be calculated from the PoV of the yet-to-be-mined
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// block.
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nextMedianTime := int64(1401292712)
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// We'll refer to this utxo within each input in the transactions
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// created below. This utxo has an age of 4 blocks and was mined within
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// block 297
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targetTx := blocksWithMTP[len(blocksWithMTP)-4].block.Transactions()[0]
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utxo := wire.OutPoint{
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Hash: *targetTx.Hash(),
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Index: 0,
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}
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// Obtain the median time past from the PoV of the input created above.
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// The MTP for the input is the MTP from the PoV of the block *prior*
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// to the one that included it.
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medianTime := blocksWithMTP[len(blocksWithMTP)-5].mtp.Unix()
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// Add an additional transaction which will serve as our unconfirmed
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// output.
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var fakeScript []byte
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unConfTx := &wire.MsgTx{
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TxOut: []*wire.TxOut{{
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PkScript: fakeScript,
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Value: 5,
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}},
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}
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unConfUtxo := wire.OutPoint{
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Hash: unConfTx.TxHash(),
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Index: 0,
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}
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// Adding a utxo with a height of 0x7fffffff indicates that the output
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// is currently unmined.
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utxoView.AddTxOuts(btcutil.NewTx(unConfTx), 0x7fffffff)
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tests := []struct {
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tx *btcutil.Tx
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view *blockchain.UtxoViewpoint
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want *blockchain.SequenceLock
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mempool bool
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}{
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// A transaction of version one should disable sequence locks
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// as the new sequence number semantics only apply to
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// transactions version 2 or higher.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 1,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 3),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: -1,
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BlockHeight: -1,
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},
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},
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// A transaction with a single input, that a max int sequence
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// number. This sequence number has the high bit set, so
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// sequence locks should be disabled.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: wire.MaxTxInSequenceNum,
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: -1,
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BlockHeight: -1,
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},
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},
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// A transaction with a single input whose lock time is
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// expressed in seconds. However, the specified lock time is
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// below the required floor for time based lock times since
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// they have time granularity of 512 seconds. As a result, the
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// seconds lock-time should be just before the median time of
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// the targeted block.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 2),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: medianTime - 1,
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BlockHeight: -1,
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},
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},
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// A transaction with a single input whose lock time is
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// expressed in seconds. The number of seconds should be 1023
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// seconds after the median past time of the last block in the
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// chain.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 1024),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: medianTime + 1023,
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BlockHeight: -1,
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},
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},
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// A transaction with multiple inputs. The first input has a
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// sequence lock in blocks with a value of 4. The last input
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// has a sequence number with a value of 5, but has the disable
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// bit set. So the first lock should be selected as it's the
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// target lock as its the furthest in the future lock that
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// isn't disabled.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 2560),
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 5) |
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wire.SequenceLockTimeDisabled,
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 4),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: medianTime + (5 << wire.SequenceLockTimeGranularity) - 1,
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BlockHeight: 299,
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},
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},
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// Transaction has a single input spending the genesis block
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// transaction. The input's sequence number is encodes a
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// relative lock-time in blocks (3 blocks). The sequence lock
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// should have a value of -1 for seconds, but a block height of
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// 298 meaning it can be included at height 299.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 3),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: -1,
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BlockHeight: 298,
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},
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},
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// A transaction with two inputs with lock times expressed in
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// seconds. The selected sequence lock value for seconds should
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// be the time further in the future.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 5120),
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 2560),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: medianTime + (10 << wire.SequenceLockTimeGranularity) - 1,
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BlockHeight: -1,
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},
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},
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// A transaction with two inputs with lock times expressed in
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// seconds. The selected sequence lock value for blocks should
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// be the height further in the future. The converted absolute
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// block height should be 302, meaning it can be included in
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// block 303.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 1),
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 7),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: -1,
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BlockHeight: 302,
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},
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},
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// A transaction with multiple inputs. Two inputs are time
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// based, and the other two are input maturity based. The lock
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// lying further into the future for both inputs should be
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// chosen.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 2560),
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(true, 6656),
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 3),
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}, {
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PreviousOutPoint: utxo,
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Sequence: blockchain.LockTimeToSequence(false, 9),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: medianTime + (13 << wire.SequenceLockTimeGranularity) - 1,
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BlockHeight: 304,
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},
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},
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// A transaction with a single unconfirmed input. As the input
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// is confirmed, the height of the input should be interpreted
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// as the height of the *next* block. The current block height
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// is 300, so the lock time should be calculated using height
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// 301 as a base. A 2 block relative lock means the transaction
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// can be included after block 302, so in 303.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: unConfUtxo,
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Sequence: blockchain.LockTimeToSequence(false, 2),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: -1,
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BlockHeight: 302,
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},
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},
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// A transaction with a single unconfirmed input. The input has
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// a time based lock, so the lock time should be based off the
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// MTP of the *next* block.
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{
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tx: btcutil.NewTx(&wire.MsgTx{
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Version: 2,
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TxIn: []*wire.TxIn{{
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PreviousOutPoint: unConfUtxo,
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Sequence: blockchain.LockTimeToSequence(true, 1024),
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}},
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}),
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view: utxoView,
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want: &blockchain.SequenceLock{
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Seconds: nextMedianTime + 1023,
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BlockHeight: -1,
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},
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},
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}
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t.Logf("Running %v SequenceLock tests", len(tests))
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for i, test := range tests {
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seqLock, err := chain.CalcSequenceLock(test.tx, test.view, test.mempool)
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if err != nil {
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t.Fatalf("test #%d, unable to calc sequence lock: %v", i, err)
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}
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if seqLock.Seconds != test.want.Seconds {
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t.Fatalf("test #%d got %v seconds want %v seconds",
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i, seqLock.Seconds, test.want.Seconds)
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}
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if seqLock.BlockHeight != test.want.BlockHeight {
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t.Fatalf("test #%d got height of %v want height of %v ",
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i, seqLock.BlockHeight, test.want.BlockHeight)
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}
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}
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}
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