2510baac35
This only adds support for handling remote peer requests.
876 lines
33 KiB
Go
876 lines
33 KiB
Go
// Copyright (c) 2014-2016 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 mining
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import (
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"container/heap"
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"fmt"
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"time"
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"github.com/btcsuite/btcd/blockchain"
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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/txscript"
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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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const (
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// MinHighPriority is the minimum priority value that allows a
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// transaction to be considered high priority.
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MinHighPriority = btcutil.SatoshiPerBitcoin * 144.0 / 250
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// generatedBlockVersion is the version of the block being generated.
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// It is defined as a constant here rather than using the
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// wire.BlockVersion constant since a change in the block version
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// will require changes to the generated block. Using the wire constant
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// for generated block version could allow creation of invalid blocks
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// for the updated version.
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generatedBlockVersion = 4
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// blockHeaderOverhead is the max number of bytes it takes to serialize
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// a block header and max possible transaction count.
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blockHeaderOverhead = wire.MaxBlockHeaderPayload + wire.MaxVarIntPayload
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// CoinbaseFlags is added to the coinbase script of a generated block
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// and is used to monitor BIP16 support as well as blocks that are
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// generated via btcd.
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CoinbaseFlags = "/P2SH/btcd/"
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)
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// TxDesc is a descriptor about a transaction in a transaction source along with
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// additional metadata.
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type TxDesc struct {
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// Tx is the transaction associated with the entry.
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Tx *btcutil.Tx
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// Added is the time when the entry was added to the source pool.
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Added time.Time
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// Height is the block height when the entry was added to the the source
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// pool.
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Height int32
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// Fee is the total fee the transaction associated with the entry pays.
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Fee int64
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// FeePerKB is the fee the transaction pays in Satoshi per 1000 bytes.
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FeePerKB int64
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}
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// TxSource represents a source of transactions to consider for inclusion in
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// new blocks.
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//
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// The interface contract requires that all of these methods are safe for
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// concurrent access with respect to the source.
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type TxSource interface {
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// LastUpdated returns the last time a transaction was added to or
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// removed from the source pool.
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LastUpdated() time.Time
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// MiningDescs returns a slice of mining descriptors for all the
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// transactions in the source pool.
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MiningDescs() []*TxDesc
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// HaveTransaction returns whether or not the passed transaction hash
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// exists in the source pool.
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HaveTransaction(hash *chainhash.Hash) bool
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}
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// txPrioItem houses a transaction along with extra information that allows the
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// transaction to be prioritized and track dependencies on other transactions
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// which have not been mined into a block yet.
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type txPrioItem struct {
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tx *btcutil.Tx
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fee int64
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priority float64
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feePerKB int64
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// dependsOn holds a map of transaction hashes which this one depends
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// on. It will only be set when the transaction references other
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// transactions in the source pool and hence must come after them in
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// a block.
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dependsOn map[chainhash.Hash]struct{}
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}
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// txPriorityQueueLessFunc describes a function that can be used as a compare
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// function for a transaction priority queue (txPriorityQueue).
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type txPriorityQueueLessFunc func(*txPriorityQueue, int, int) bool
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// txPriorityQueue implements a priority queue of txPrioItem elements that
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// supports an arbitrary compare function as defined by txPriorityQueueLessFunc.
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type txPriorityQueue struct {
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lessFunc txPriorityQueueLessFunc
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items []*txPrioItem
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}
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// Len returns the number of items in the priority queue. It is part of the
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// heap.Interface implementation.
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func (pq *txPriorityQueue) Len() int {
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return len(pq.items)
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}
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// Less returns whether the item in the priority queue with index i should sort
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// before the item with index j by deferring to the assigned less function. It
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// is part of the heap.Interface implementation.
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func (pq *txPriorityQueue) Less(i, j int) bool {
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return pq.lessFunc(pq, i, j)
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}
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// Swap swaps the items at the passed indices in the priority queue. It is
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// part of the heap.Interface implementation.
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func (pq *txPriorityQueue) Swap(i, j int) {
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pq.items[i], pq.items[j] = pq.items[j], pq.items[i]
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}
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// Push pushes the passed item onto the priority queue. It is part of the
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// heap.Interface implementation.
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func (pq *txPriorityQueue) Push(x interface{}) {
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pq.items = append(pq.items, x.(*txPrioItem))
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}
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// Pop removes the highest priority item (according to Less) from the priority
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// queue and returns it. It is part of the heap.Interface implementation.
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func (pq *txPriorityQueue) Pop() interface{} {
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n := len(pq.items)
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item := pq.items[n-1]
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pq.items[n-1] = nil
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pq.items = pq.items[0 : n-1]
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return item
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}
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// SetLessFunc sets the compare function for the priority queue to the provided
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// function. It also invokes heap.Init on the priority queue using the new
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// function so it can immediately be used with heap.Push/Pop.
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func (pq *txPriorityQueue) SetLessFunc(lessFunc txPriorityQueueLessFunc) {
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pq.lessFunc = lessFunc
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heap.Init(pq)
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}
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// txPQByPriority sorts a txPriorityQueue by transaction priority and then fees
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// per kilobyte.
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func txPQByPriority(pq *txPriorityQueue, i, j int) bool {
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// Using > here so that pop gives the highest priority item as opposed
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// to the lowest. Sort by priority first, then fee.
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if pq.items[i].priority == pq.items[j].priority {
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return pq.items[i].feePerKB > pq.items[j].feePerKB
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}
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return pq.items[i].priority > pq.items[j].priority
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}
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// txPQByFee sorts a txPriorityQueue by fees per kilobyte and then transaction
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// priority.
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func txPQByFee(pq *txPriorityQueue, i, j int) bool {
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// Using > here so that pop gives the highest fee item as opposed
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// to the lowest. Sort by fee first, then priority.
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if pq.items[i].feePerKB == pq.items[j].feePerKB {
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return pq.items[i].priority > pq.items[j].priority
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}
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return pq.items[i].feePerKB > pq.items[j].feePerKB
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}
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// newTxPriorityQueue returns a new transaction priority queue that reserves the
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// passed amount of space for the elements. The new priority queue uses either
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// the txPQByPriority or the txPQByFee compare function depending on the
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// sortByFee parameter and is already initialized for use with heap.Push/Pop.
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// The priority queue can grow larger than the reserved space, but extra copies
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// of the underlying array can be avoided by reserving a sane value.
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func newTxPriorityQueue(reserve int, sortByFee bool) *txPriorityQueue {
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pq := &txPriorityQueue{
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items: make([]*txPrioItem, 0, reserve),
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}
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if sortByFee {
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pq.SetLessFunc(txPQByFee)
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} else {
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pq.SetLessFunc(txPQByPriority)
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}
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return pq
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}
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// BlockTemplate houses a block that has yet to be solved along with additional
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// details about the fees and the number of signature operations for each
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// transaction in the block.
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type BlockTemplate struct {
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// Block is a block that is ready to be solved by miners. Thus, it is
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// completely valid with the exception of satisfying the proof-of-work
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// requirement.
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Block *wire.MsgBlock
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// Fees contains the amount of fees each transaction in the generated
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// template pays in base units. Since the first transaction is the
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// coinbase, the first entry (offset 0) will contain the negative of the
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// sum of the fees of all other transactions.
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Fees []int64
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// SigOpCounts contains the number of signature operations each
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// transaction in the generated template performs.
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SigOpCounts []int64
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// Height is the height at which the block template connects to the main
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// chain.
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Height int32
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// ValidPayAddress indicates whether or not the template coinbase pays
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// to an address or is redeemable by anyone. See the documentation on
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// NewBlockTemplate for details on which this can be useful to generate
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// templates without a coinbase payment address.
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ValidPayAddress bool
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}
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// mergeUtxoView adds all of the entries in view to viewA. The result is that
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// viewA will contain all of its original entries plus all of the entries
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// in viewB. It will replace any entries in viewB which also exist in viewA
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// if the entry in viewA is fully spent.
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func mergeUtxoView(viewA *blockchain.UtxoViewpoint, viewB *blockchain.UtxoViewpoint) {
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viewAEntries := viewA.Entries()
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for hash, entryB := range viewB.Entries() {
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if entryA, exists := viewAEntries[hash]; !exists ||
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entryA == nil || entryA.IsFullySpent() {
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viewAEntries[hash] = entryB
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}
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}
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}
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// standardCoinbaseScript returns a standard script suitable for use as the
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// signature script of the coinbase transaction of a new block. In particular,
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// it starts with the block height that is required by version 2 blocks and adds
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// the extra nonce as well as additional coinbase flags.
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func standardCoinbaseScript(nextBlockHeight int32, extraNonce uint64) ([]byte, error) {
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return txscript.NewScriptBuilder().AddInt64(int64(nextBlockHeight)).
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AddInt64(int64(extraNonce)).AddData([]byte(CoinbaseFlags)).
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Script()
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}
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// createCoinbaseTx returns a coinbase transaction paying an appropriate subsidy
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// based on the passed block height to the provided address. When the address
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// is nil, the coinbase transaction will instead be redeemable by anyone.
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//
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// See the comment for NewBlockTemplate for more information about why the nil
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// address handling is useful.
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func createCoinbaseTx(params *chaincfg.Params, coinbaseScript []byte, nextBlockHeight int32, addr btcutil.Address) (*btcutil.Tx, error) {
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// Create the script to pay to the provided payment address if one was
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// specified. Otherwise create a script that allows the coinbase to be
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// redeemable by anyone.
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var pkScript []byte
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if addr != nil {
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var err error
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pkScript, err = txscript.PayToAddrScript(addr)
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if err != nil {
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return nil, err
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}
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} else {
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var err error
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scriptBuilder := txscript.NewScriptBuilder()
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pkScript, err = scriptBuilder.AddOp(txscript.OP_TRUE).Script()
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if err != nil {
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return nil, err
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}
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}
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tx := wire.NewMsgTx(wire.TxVersion)
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tx.AddTxIn(&wire.TxIn{
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// Coinbase transactions have no inputs, so previous outpoint is
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// zero hash and max index.
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PreviousOutPoint: *wire.NewOutPoint(&chainhash.Hash{},
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wire.MaxPrevOutIndex),
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SignatureScript: coinbaseScript,
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Sequence: wire.MaxTxInSequenceNum,
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})
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tx.AddTxOut(&wire.TxOut{
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Value: blockchain.CalcBlockSubsidy(nextBlockHeight, params),
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PkScript: pkScript,
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})
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return btcutil.NewTx(tx), nil
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}
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// spendTransaction updates the passed view by marking the inputs to the passed
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// transaction as spent. It also adds all outputs in the passed transaction
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// which are not provably unspendable as available unspent transaction outputs.
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func spendTransaction(utxoView *blockchain.UtxoViewpoint, tx *btcutil.Tx, height int32) error {
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for _, txIn := range tx.MsgTx().TxIn {
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originHash := &txIn.PreviousOutPoint.Hash
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originIndex := txIn.PreviousOutPoint.Index
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entry := utxoView.LookupEntry(originHash)
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if entry != nil {
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entry.SpendOutput(originIndex)
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}
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}
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utxoView.AddTxOuts(tx, height)
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return nil
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}
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// logSkippedDeps logs any dependencies which are also skipped as a result of
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// skipping a transaction while generating a block template at the trace level.
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func logSkippedDeps(tx *btcutil.Tx, deps map[chainhash.Hash]*txPrioItem) {
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if deps == nil {
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return
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}
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for _, item := range deps {
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log.Tracef("Skipping tx %s since it depends on %s\n",
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item.tx.Hash(), tx.Hash())
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}
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}
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// MinimumMedianTime returns the minimum allowed timestamp for a block building
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// on the end of the provided best chain. In particular, it is one second after
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// the median timestamp of the last several blocks per the chain consensus
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// rules.
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func MinimumMedianTime(chainState *blockchain.BestState) time.Time {
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return chainState.MedianTime.Add(time.Second)
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}
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// medianAdjustedTime returns the current time adjusted to ensure it is at least
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// one second after the median timestamp of the last several blocks per the
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// chain consensus rules.
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func medianAdjustedTime(chainState *blockchain.BestState, timeSource blockchain.MedianTimeSource) time.Time {
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// The timestamp for the block must not be before the median timestamp
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// of the last several blocks. Thus, choose the maximum between the
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// current time and one second after the past median time. The current
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// timestamp is truncated to a second boundary before comparison since a
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// block timestamp does not supported a precision greater than one
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// second.
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newTimestamp := timeSource.AdjustedTime()
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minTimestamp := MinimumMedianTime(chainState)
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if newTimestamp.Before(minTimestamp) {
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newTimestamp = minTimestamp
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}
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return newTimestamp
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}
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// BlkTmplGenerator provides a type that can be used to generate block templates
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// based on a given mining policy and source of transactions to choose from.
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// It also houses additional state required in order to ensure the templates
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// are built on top of the current best chain and adhere to the consensus rules.
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type BlkTmplGenerator struct {
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policy *Policy
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chainParams *chaincfg.Params
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txSource TxSource
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chain *blockchain.BlockChain
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timeSource blockchain.MedianTimeSource
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sigCache *txscript.SigCache
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}
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// NewBlkTmplGenerator returns a new block template generator for the given
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// policy using transactions from the provided transaction source.
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//
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// The additional state-related fields are required in order to ensure the
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// templates are built on top of the current best chain and adhere to the
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// consensus rules.
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func NewBlkTmplGenerator(policy *Policy, params *chaincfg.Params,
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txSource TxSource, chain *blockchain.BlockChain,
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timeSource blockchain.MedianTimeSource,
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sigCache *txscript.SigCache) *BlkTmplGenerator {
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return &BlkTmplGenerator{
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policy: policy,
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chainParams: params,
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txSource: txSource,
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chain: chain,
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timeSource: timeSource,
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sigCache: sigCache,
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}
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}
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// NewBlockTemplate returns a new block template that is ready to be solved
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// using the transactions from the passed transaction source pool and a coinbase
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// that either pays to the passed address if it is not nil, or a coinbase that
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// is redeemable by anyone if the passed address is nil. The nil address
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// functionality is useful since there are cases such as the getblocktemplate
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// RPC where external mining software is responsible for creating their own
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// coinbase which will replace the one generated for the block template. Thus
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// the need to have configured address can be avoided.
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//
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// The transactions selected and included are prioritized according to several
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// factors. First, each transaction has a priority calculated based on its
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// value, age of inputs, and size. Transactions which consist of larger
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// amounts, older inputs, and small sizes have the highest priority. Second, a
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// fee per kilobyte is calculated for each transaction. Transactions with a
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// higher fee per kilobyte are preferred. Finally, the block generation related
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// policy settings are all taken into account.
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//
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// Transactions which only spend outputs from other transactions already in the
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// block chain are immediately added to a priority queue which either
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// prioritizes based on the priority (then fee per kilobyte) or the fee per
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// kilobyte (then priority) depending on whether or not the BlockPrioritySize
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// policy setting allots space for high-priority transactions. Transactions
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// which spend outputs from other transactions in the source pool are added to a
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// dependency map so they can be added to the priority queue once the
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// transactions they depend on have been included.
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//
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// Once the high-priority area (if configured) has been filled with
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// transactions, or the priority falls below what is considered high-priority,
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// the priority queue is updated to prioritize by fees per kilobyte (then
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// priority).
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//
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// When the fees per kilobyte drop below the TxMinFreeFee policy setting, the
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// transaction will be skipped unless the BlockMinSize policy setting is
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// nonzero, in which case the block will be filled with the low-fee/free
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// transactions until the block size reaches that minimum size.
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//
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// Any transactions which would cause the block to exceed the BlockMaxSize
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// policy setting, exceed the maximum allowed signature operations per block, or
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// otherwise cause the block to be invalid are skipped.
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//
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// Given the above, a block generated by this function is of the following form:
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//
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// ----------------------------------- -- --
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// | Coinbase Transaction | | |
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// |-----------------------------------| | |
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// | | | | ----- policy.BlockPrioritySize
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// | High-priority Transactions | | |
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// | | | |
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// |-----------------------------------| | --
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// | | |
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// | | |
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// | | |--- policy.BlockMaxSize
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// | Transactions prioritized by fee | |
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// | until <= policy.TxMinFreeFee | |
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// | | |
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// | | |
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// | | |
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// |-----------------------------------| |
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// | Low-fee/Non high-priority (free) | |
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// | transactions (while block size | |
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// | <= policy.BlockMinSize) | |
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// ----------------------------------- --
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func (g *BlkTmplGenerator) NewBlockTemplate(payToAddress btcutil.Address) (*BlockTemplate, error) {
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// Extend the most recently known best block.
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best := g.chain.BestSnapshot()
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prevHash := best.Hash
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nextBlockHeight := best.Height + 1
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// Create a standard coinbase transaction paying to the provided
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// address. NOTE: The coinbase value will be updated to include the
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// fees from the selected transactions later after they have actually
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// been selected. It is created here to detect any errors early
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// before potentially doing a lot of work below. The extra nonce helps
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// ensure the transaction is not a duplicate transaction (paying the
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// same value to the same public key address would otherwise be an
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// identical transaction for block version 1).
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extraNonce := uint64(0)
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coinbaseScript, err := standardCoinbaseScript(nextBlockHeight, extraNonce)
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if err != nil {
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return nil, err
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}
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coinbaseTx, err := createCoinbaseTx(g.chainParams, coinbaseScript,
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nextBlockHeight, payToAddress)
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if err != nil {
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return nil, err
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}
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numCoinbaseSigOps := int64(blockchain.CountSigOps(coinbaseTx))
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// Get the current source transactions and create a priority queue to
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// hold the transactions which are ready for inclusion into a block
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// along with some priority related and fee metadata. Reserve the same
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// number of items that are available for the priority queue. Also,
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// choose the initial sort order for the priority queue based on whether
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// or not there is an area allocated for high-priority transactions.
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sourceTxns := g.txSource.MiningDescs()
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sortedByFee := g.policy.BlockPrioritySize == 0
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priorityQueue := newTxPriorityQueue(len(sourceTxns), sortedByFee)
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|
|
// Create a slice to hold the transactions to be included in the
|
|
// generated block with reserved space. Also create a utxo view to
|
|
// house all of the input transactions so multiple lookups can be
|
|
// avoided.
|
|
blockTxns := make([]*btcutil.Tx, 0, len(sourceTxns))
|
|
blockTxns = append(blockTxns, coinbaseTx)
|
|
blockUtxos := blockchain.NewUtxoViewpoint()
|
|
|
|
// dependers is used to track transactions which depend on another
|
|
// transaction in the source pool. This, in conjunction with the
|
|
// dependsOn map kept with each dependent transaction helps quickly
|
|
// determine which dependent transactions are now eligible for inclusion
|
|
// in the block once each transaction has been included.
|
|
dependers := make(map[chainhash.Hash]map[chainhash.Hash]*txPrioItem)
|
|
|
|
// Create slices to hold the fees and number of signature operations
|
|
// for each of the selected transactions and add an entry for the
|
|
// coinbase. This allows the code below to simply append details about
|
|
// a transaction as it is selected for inclusion in the final block.
|
|
// However, since the total fees aren't known yet, use a dummy value for
|
|
// the coinbase fee which will be updated later.
|
|
txFees := make([]int64, 0, len(sourceTxns))
|
|
txSigOpCounts := make([]int64, 0, len(sourceTxns))
|
|
txFees = append(txFees, -1) // Updated once known
|
|
txSigOpCounts = append(txSigOpCounts, numCoinbaseSigOps)
|
|
|
|
log.Debugf("Considering %d transactions for inclusion to new block",
|
|
len(sourceTxns))
|
|
|
|
mempoolLoop:
|
|
for _, txDesc := range sourceTxns {
|
|
// A block can't have more than one coinbase or contain
|
|
// non-finalized transactions.
|
|
tx := txDesc.Tx
|
|
if blockchain.IsCoinBase(tx) {
|
|
log.Tracef("Skipping coinbase tx %s", tx.Hash())
|
|
continue
|
|
}
|
|
if !blockchain.IsFinalizedTransaction(tx, nextBlockHeight,
|
|
g.timeSource.AdjustedTime()) {
|
|
|
|
log.Tracef("Skipping non-finalized tx %s", tx.Hash())
|
|
continue
|
|
}
|
|
|
|
// Fetch all of the utxos referenced by the this transaction.
|
|
// NOTE: This intentionally does not fetch inputs from the
|
|
// mempool since a transaction which depends on other
|
|
// transactions in the mempool must come after those
|
|
// dependencies in the final generated block.
|
|
utxos, err := g.chain.FetchUtxoView(tx)
|
|
if err != nil {
|
|
log.Warnf("Unable to fetch utxo view for tx %s: %v",
|
|
tx.Hash(), err)
|
|
continue
|
|
}
|
|
|
|
// Setup dependencies for any transactions which reference
|
|
// other transactions in the mempool so they can be properly
|
|
// ordered below.
|
|
prioItem := &txPrioItem{tx: tx}
|
|
for _, txIn := range tx.MsgTx().TxIn {
|
|
originHash := &txIn.PreviousOutPoint.Hash
|
|
originIndex := txIn.PreviousOutPoint.Index
|
|
utxoEntry := utxos.LookupEntry(originHash)
|
|
if utxoEntry == nil || utxoEntry.IsOutputSpent(originIndex) {
|
|
if !g.txSource.HaveTransaction(originHash) {
|
|
log.Tracef("Skipping tx %s because it "+
|
|
"references unspent output %s "+
|
|
"which is not available",
|
|
tx.Hash(), txIn.PreviousOutPoint)
|
|
continue mempoolLoop
|
|
}
|
|
|
|
// The transaction is referencing another
|
|
// transaction in the source pool, so setup an
|
|
// ordering dependency.
|
|
deps, exists := dependers[*originHash]
|
|
if !exists {
|
|
deps = make(map[chainhash.Hash]*txPrioItem)
|
|
dependers[*originHash] = deps
|
|
}
|
|
deps[*prioItem.tx.Hash()] = prioItem
|
|
if prioItem.dependsOn == nil {
|
|
prioItem.dependsOn = make(
|
|
map[chainhash.Hash]struct{})
|
|
}
|
|
prioItem.dependsOn[*originHash] = struct{}{}
|
|
|
|
// Skip the check below. We already know the
|
|
// referenced transaction is available.
|
|
continue
|
|
}
|
|
}
|
|
|
|
// Calculate the final transaction priority using the input
|
|
// value age sum as well as the adjusted transaction size. The
|
|
// formula is: sum(inputValue * inputAge) / adjustedTxSize
|
|
prioItem.priority = CalcPriority(tx.MsgTx(), utxos,
|
|
nextBlockHeight)
|
|
|
|
// Calculate the fee in Satoshi/kB.
|
|
prioItem.feePerKB = txDesc.FeePerKB
|
|
prioItem.fee = txDesc.Fee
|
|
|
|
// Add the transaction to the priority queue to mark it ready
|
|
// for inclusion in the block unless it has dependencies.
|
|
if prioItem.dependsOn == nil {
|
|
heap.Push(priorityQueue, prioItem)
|
|
}
|
|
|
|
// Merge the referenced outputs from the input transactions to
|
|
// this transaction into the block utxo view. This allows the
|
|
// code below to avoid a second lookup.
|
|
mergeUtxoView(blockUtxos, utxos)
|
|
}
|
|
|
|
log.Tracef("Priority queue len %d, dependers len %d",
|
|
priorityQueue.Len(), len(dependers))
|
|
|
|
// The starting block size is the size of the block header plus the max
|
|
// possible transaction count size, plus the size of the coinbase
|
|
// transaction.
|
|
blockSize := blockHeaderOverhead + uint32(coinbaseTx.MsgTx().SerializeSize())
|
|
blockSigOps := numCoinbaseSigOps
|
|
totalFees := int64(0)
|
|
|
|
// Choose which transactions make it into the block.
|
|
for priorityQueue.Len() > 0 {
|
|
// Grab the highest priority (or highest fee per kilobyte
|
|
// depending on the sort order) transaction.
|
|
prioItem := heap.Pop(priorityQueue).(*txPrioItem)
|
|
tx := prioItem.tx
|
|
|
|
// Grab any transactions which depend on this one.
|
|
deps := dependers[*tx.Hash()]
|
|
|
|
// Enforce maximum block size. Also check for overflow.
|
|
txSize := uint32(tx.MsgTx().SerializeSize())
|
|
blockPlusTxSize := blockSize + txSize
|
|
if blockPlusTxSize < blockSize ||
|
|
blockPlusTxSize >= g.policy.BlockMaxSize {
|
|
|
|
log.Tracef("Skipping tx %s because it would exceed "+
|
|
"the max block size", tx.Hash())
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
|
|
// Enforce maximum signature operations per block. Also check
|
|
// for overflow.
|
|
numSigOps := int64(blockchain.CountSigOps(tx))
|
|
if blockSigOps+numSigOps < blockSigOps ||
|
|
blockSigOps+numSigOps > blockchain.MaxSigOpsPerBlock {
|
|
log.Tracef("Skipping tx %s because it would exceed "+
|
|
"the maximum sigops per block", tx.Hash())
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
numP2SHSigOps, err := blockchain.CountP2SHSigOps(tx, false,
|
|
blockUtxos)
|
|
if err != nil {
|
|
log.Tracef("Skipping tx %s due to error in "+
|
|
"CountP2SHSigOps: %v", tx.Hash(), err)
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
numSigOps += int64(numP2SHSigOps)
|
|
if blockSigOps+numSigOps < blockSigOps ||
|
|
blockSigOps+numSigOps > blockchain.MaxSigOpsPerBlock {
|
|
log.Tracef("Skipping tx %s because it would exceed "+
|
|
"the maximum sigops per block (p2sh)",
|
|
tx.Hash())
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
|
|
// Skip free transactions once the block is larger than the
|
|
// minimum block size.
|
|
if sortedByFee &&
|
|
prioItem.feePerKB < int64(g.policy.TxMinFreeFee) &&
|
|
blockPlusTxSize >= g.policy.BlockMinSize {
|
|
|
|
log.Tracef("Skipping tx %s with feePerKB %.2f "+
|
|
"< TxMinFreeFee %d and block size %d >= "+
|
|
"minBlockSize %d", tx.Hash(), prioItem.feePerKB,
|
|
g.policy.TxMinFreeFee, blockPlusTxSize,
|
|
g.policy.BlockMinSize)
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
|
|
// Prioritize by fee per kilobyte once the block is larger than
|
|
// the priority size or there are no more high-priority
|
|
// transactions.
|
|
if !sortedByFee && (blockPlusTxSize >= g.policy.BlockPrioritySize ||
|
|
prioItem.priority <= MinHighPriority) {
|
|
|
|
log.Tracef("Switching to sort by fees per kilobyte "+
|
|
"blockSize %d >= BlockPrioritySize %d || "+
|
|
"priority %.2f <= minHighPriority %.2f",
|
|
blockPlusTxSize, g.policy.BlockPrioritySize,
|
|
prioItem.priority, MinHighPriority)
|
|
|
|
sortedByFee = true
|
|
priorityQueue.SetLessFunc(txPQByFee)
|
|
|
|
// Put the transaction back into the priority queue and
|
|
// skip it so it is re-priortized by fees if it won't
|
|
// fit into the high-priority section or the priority is
|
|
// too low. Otherwise this transaction will be the
|
|
// final one in the high-priority section, so just fall
|
|
// though to the code below so it is added now.
|
|
if blockPlusTxSize > g.policy.BlockPrioritySize ||
|
|
prioItem.priority < MinHighPriority {
|
|
|
|
heap.Push(priorityQueue, prioItem)
|
|
continue
|
|
}
|
|
}
|
|
|
|
// Ensure the transaction inputs pass all of the necessary
|
|
// preconditions before allowing it to be added to the block.
|
|
_, err = blockchain.CheckTransactionInputs(tx, nextBlockHeight,
|
|
blockUtxos, g.chainParams)
|
|
if err != nil {
|
|
log.Tracef("Skipping tx %s due to error in "+
|
|
"CheckTransactionInputs: %v", tx.Hash(), err)
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
err = blockchain.ValidateTransactionScripts(tx, blockUtxos,
|
|
txscript.StandardVerifyFlags, g.sigCache)
|
|
if err != nil {
|
|
log.Tracef("Skipping tx %s due to error in "+
|
|
"ValidateTransactionScripts: %v", tx.Hash(),
|
|
err)
|
|
logSkippedDeps(tx, deps)
|
|
continue
|
|
}
|
|
|
|
// Spend the transaction inputs in the block utxo view and add
|
|
// an entry for it to ensure any transactions which reference
|
|
// this one have it available as an input and can ensure they
|
|
// aren't double spending.
|
|
spendTransaction(blockUtxos, tx, nextBlockHeight)
|
|
|
|
// Add the transaction to the block, increment counters, and
|
|
// save the fees and signature operation counts to the block
|
|
// template.
|
|
blockTxns = append(blockTxns, tx)
|
|
blockSize += txSize
|
|
blockSigOps += numSigOps
|
|
totalFees += prioItem.fee
|
|
txFees = append(txFees, prioItem.fee)
|
|
txSigOpCounts = append(txSigOpCounts, numSigOps)
|
|
|
|
log.Tracef("Adding tx %s (priority %.2f, feePerKB %.2f)",
|
|
prioItem.tx.Hash(), prioItem.priority, prioItem.feePerKB)
|
|
|
|
// Add transactions which depend on this one (and also do not
|
|
// have any other unsatisified dependencies) to the priority
|
|
// queue.
|
|
for _, item := range deps {
|
|
// Add the transaction to the priority queue if there
|
|
// are no more dependencies after this one.
|
|
delete(item.dependsOn, *tx.Hash())
|
|
if len(item.dependsOn) == 0 {
|
|
heap.Push(priorityQueue, item)
|
|
}
|
|
}
|
|
}
|
|
|
|
// Now that the actual transactions have been selected, update the
|
|
// block size for the real transaction count and coinbase value with
|
|
// the total fees accordingly.
|
|
blockSize -= wire.MaxVarIntPayload -
|
|
uint32(wire.VarIntSerializeSize(uint64(len(blockTxns))))
|
|
coinbaseTx.MsgTx().TxOut[0].Value += totalFees
|
|
txFees[0] = -totalFees
|
|
|
|
// Calculate the required difficulty for the block. The timestamp
|
|
// is potentially adjusted to ensure it comes after the median time of
|
|
// the last several blocks per the chain consensus rules.
|
|
ts := medianAdjustedTime(best, g.timeSource)
|
|
reqDifficulty, err := g.chain.CalcNextRequiredDifficulty(ts)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
// Create a new block ready to be solved.
|
|
merkles := blockchain.BuildMerkleTreeStore(blockTxns)
|
|
var msgBlock wire.MsgBlock
|
|
msgBlock.Header = wire.BlockHeader{
|
|
Version: generatedBlockVersion,
|
|
PrevBlock: *prevHash,
|
|
MerkleRoot: *merkles[len(merkles)-1],
|
|
Timestamp: ts,
|
|
Bits: reqDifficulty,
|
|
}
|
|
for _, tx := range blockTxns {
|
|
if err := msgBlock.AddTransaction(tx.MsgTx()); err != nil {
|
|
return nil, err
|
|
}
|
|
}
|
|
|
|
// Finally, perform a full check on the created block against the chain
|
|
// consensus rules to ensure it properly connects to the current best
|
|
// chain with no issues.
|
|
block := btcutil.NewBlock(&msgBlock)
|
|
block.SetHeight(nextBlockHeight)
|
|
if err := g.chain.CheckConnectBlock(block); err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
log.Debugf("Created new block template (%d transactions, %d in fees, "+
|
|
"%d signature operations, %d bytes, target difficulty %064x)",
|
|
len(msgBlock.Transactions), totalFees, blockSigOps, blockSize,
|
|
blockchain.CompactToBig(msgBlock.Header.Bits))
|
|
|
|
return &BlockTemplate{
|
|
Block: &msgBlock,
|
|
Fees: txFees,
|
|
SigOpCounts: txSigOpCounts,
|
|
Height: nextBlockHeight,
|
|
ValidPayAddress: payToAddress != nil,
|
|
}, nil
|
|
}
|
|
|
|
// UpdateBlockTime updates the timestamp in the header of the passed block to
|
|
// the current time while taking into account the median time of the last
|
|
// several blocks to ensure the new time is after that time per the chain
|
|
// consensus rules. Finally, it will update the target difficulty if needed
|
|
// based on the new time for the test networks since their target difficulty can
|
|
// change based upon time.
|
|
func (g *BlkTmplGenerator) UpdateBlockTime(msgBlock *wire.MsgBlock) error {
|
|
// The new timestamp is potentially adjusted to ensure it comes after
|
|
// the median time of the last several blocks per the chain consensus
|
|
// rules.
|
|
newTime := medianAdjustedTime(g.chain.BestSnapshot(), g.timeSource)
|
|
msgBlock.Header.Timestamp = newTime
|
|
|
|
// Recalculate the difficulty if running on a network that requires it.
|
|
if g.chainParams.ReduceMinDifficulty {
|
|
difficulty, err := g.chain.CalcNextRequiredDifficulty(newTime)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
msgBlock.Header.Bits = difficulty
|
|
}
|
|
|
|
return nil
|
|
}
|
|
|
|
// UpdateExtraNonce updates the extra nonce in the coinbase script of the passed
|
|
// block by regenerating the coinbase script with the passed value and block
|
|
// height. It also recalculates and updates the new merkle root that results
|
|
// from changing the coinbase script.
|
|
func (g *BlkTmplGenerator) UpdateExtraNonce(msgBlock *wire.MsgBlock, blockHeight int32, extraNonce uint64) error {
|
|
coinbaseScript, err := standardCoinbaseScript(blockHeight, extraNonce)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
if len(coinbaseScript) > blockchain.MaxCoinbaseScriptLen {
|
|
return fmt.Errorf("coinbase transaction script length "+
|
|
"of %d is out of range (min: %d, max: %d)",
|
|
len(coinbaseScript), blockchain.MinCoinbaseScriptLen,
|
|
blockchain.MaxCoinbaseScriptLen)
|
|
}
|
|
msgBlock.Transactions[0].TxIn[0].SignatureScript = coinbaseScript
|
|
|
|
// TODO(davec): A btcutil.Block should use saved in the state to avoid
|
|
// recalculating all of the other transaction hashes.
|
|
// block.Transactions[0].InvalidateCache()
|
|
|
|
// Recalculate the merkle root with the updated extra nonce.
|
|
block := btcutil.NewBlock(msgBlock)
|
|
merkles := blockchain.BuildMerkleTreeStore(block.Transactions())
|
|
msgBlock.Header.MerkleRoot = *merkles[len(merkles)-1]
|
|
return nil
|
|
}
|
|
|
|
// BestSnapshot returns information about the current best chain block and
|
|
// related state as of the current point in time using the chain instance
|
|
// associated with the block template generator. The returned state must be
|
|
// treated as immutable since it is shared by all callers.
|
|
//
|
|
// This function is safe for concurrent access.
|
|
func (g *BlkTmplGenerator) BestSnapshot() *blockchain.BestState {
|
|
return g.chain.BestSnapshot()
|
|
}
|
|
|
|
// TxSource returns the associated transaction source.
|
|
//
|
|
// This function is safe for concurrent access.
|
|
func (g *BlkTmplGenerator) TxSource() TxSource {
|
|
return g.txSource
|
|
}
|