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batch_spend_reporter.go
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/
batch_spend_reporter.go
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package neutrino
import (
"bytes"
"github.com/gcash/bchd/chaincfg/chainhash"
"github.com/gcash/bchd/wire"
)
// batchSpendReporter orchestrates the delivery of spend reports to
// GetUtxoRequests processed by the UtxoScanner. The reporter expects a sequence
// of blocks consisting of those containing a UTXO to watch, or any whose
// filter generates a match using current filterEntries. This instance supports
// multiple requests for the same outpoint.
type batchSpendReporter struct {
// requests maps an outpoint to list of GetUtxoRequests waiting for that
// UTXO's spend report.
requests map[wire.OutPoint][]*GetUtxoRequest
// initialTxns contains a map from an outpoint to the "unspent" version
// of it's spend report. This value is populated by fetching the output
// from the block in the request's start height. This spend report will
// be returned in the case that the output remained unspent for the
// duration of the scan.
initialTxns map[wire.OutPoint]*SpendReport
// outpoints caches the filter entry for each outpoint, conserving
// allocations when reconstructing the current filterEntries.
outpoints map[wire.OutPoint][]byte
// filterEntries holds the current set of watched outpoint, and is
// applied to cfilters to guage whether we should download the block.
//
// NOTE: This watchlist is updated during each call to ProcessBlock.
filterEntries [][]byte
}
// newBatchSpendReporter instantiates a fresh batchSpendReporter.
func newBatchSpendReporter() *batchSpendReporter {
return &batchSpendReporter{
requests: make(map[wire.OutPoint][]*GetUtxoRequest),
initialTxns: make(map[wire.OutPoint]*SpendReport),
outpoints: make(map[wire.OutPoint][]byte),
}
}
// NotifyUnspentAndUnfound iterates through any requests for which no spends
// were detected. If we were able to find the initial output, this will be
// delivered signaling that no spend was detected. If the original output could
// not be found, a nil spend report is returned.
func (b *batchSpendReporter) NotifyUnspentAndUnfound() {
log.Debugf("Finished batch, %d unspent outpoints", len(b.requests))
for outpoint, requests := range b.requests {
// A nil SpendReport indicates the output was not found.
tx, ok := b.initialTxns[outpoint]
if !ok {
log.Warnf("Unknown initial txn for getuxo request %v",
outpoint)
}
b.notifyRequests(&outpoint, requests, tx, nil)
}
}
// FailRemaining will return an error to all remaining requests in the event we
// experience a critical rescan error. The error is threaded through to allow
// the syntax:
// return reporter.FailRemaining(err)
func (b *batchSpendReporter) FailRemaining(err error) error {
for outpoint, requests := range b.requests {
b.notifyRequests(&outpoint, requests, nil, err)
}
return err
}
// notifyRequests delivers the same final response to the given requests, and
// cleans up any remaining state for the outpoint.
//
// NOTE: AT MOST ONE of `report` or `err` may be non-nil.
func (b *batchSpendReporter) notifyRequests(
outpoint *wire.OutPoint,
requests []*GetUtxoRequest,
report *SpendReport,
err error) {
delete(b.requests, *outpoint)
delete(b.initialTxns, *outpoint)
delete(b.outpoints, *outpoint)
for _, request := range requests {
request.deliver(report, err)
}
}
// ProcessBlock accepts a block, block height, and any new requests whose start
// height matches the provided height. If a non-zero number of new requests are
// presented, the block will first be checked for the initial outputs from which
// spends may occur. Afterwards, any spends detected in the block are
// immediately dispatched, and the watchlist updated in preparation of filtering
// the next block.
func (b *batchSpendReporter) ProcessBlock(blk *wire.MsgBlock,
newReqs []*GetUtxoRequest, height uint32) {
// If any requests want the UTXOs at this height, scan the block to find
// the original outputs that might be spent from.
if len(newReqs) > 0 {
b.addNewRequests(newReqs)
b.findInitialTransactions(blk, newReqs, height)
}
// Next, filter the block for any spends using the current set of
// watched outpoints. This will include any new requests added above.
spends := b.notifySpends(blk, height)
// Finally, rebuild filter entries from cached entries remaining in
// outpoints map. This will provide an updated watchlist used to scan
// the subsequent filters.
rebuildWatchlist := len(newReqs) > 0 || len(spends) > 0
if rebuildWatchlist {
b.filterEntries = b.filterEntries[:0]
for outpoint, entry := range b.outpoints {
b.filterEntries = append(b.filterEntries, entry)
var buf bytes.Buffer
if err := outpoint.Serialize(&buf); err != nil {
continue
}
b.filterEntries = append(b.filterEntries, buf.Bytes())
}
}
}
// addNewRequests adds a set of new GetUtxoRequests to the spend reporter's
// state. This method immediately adds the request's outpoints to the reporter's
// watchlist.
func (b *batchSpendReporter) addNewRequests(reqs []*GetUtxoRequest) {
for _, req := range reqs {
outpoint := req.Input.OutPoint
log.Debugf("Adding outpoint=%s height=%d to watchlist",
outpoint, req.BirthHeight)
b.requests[outpoint] = append(b.requests[outpoint], req)
// Build the filter entry only if it is the first time seeing
// the outpoint.
if _, ok := b.outpoints[outpoint]; !ok {
entry := req.Input.PkScript
b.outpoints[outpoint] = entry
b.filterEntries = append(b.filterEntries, entry)
var buf bytes.Buffer
if err := outpoint.Serialize(&buf); err != nil {
continue
}
b.filterEntries = append(b.filterEntries, buf.Bytes())
}
}
}
// findInitialTransactions searches the given block for the creation of the
// UTXOs that are supposed to be birthed in this block. If any are found, a
// spend report containing the initial outpoint will be saved in case the
// outpoint is not spent later on. Requests corresponding to outpoints that are
// not found in the block will return a nil spend report to indicate that the
// UTXO was not found.
func (b *batchSpendReporter) findInitialTransactions(block *wire.MsgBlock,
newReqs []*GetUtxoRequest, height uint32) map[wire.OutPoint]*SpendReport {
// First, construct a reverse index from txid to all a list of requests
// whose outputs share the same txid.
txidReverseIndex := make(map[chainhash.Hash][]*GetUtxoRequest)
for _, req := range newReqs {
txidReverseIndex[req.Input.OutPoint.Hash] = append(
txidReverseIndex[req.Input.OutPoint.Hash], req,
)
}
// Iterate over the transactions in this block, hashing each and
// querying our reverse index to see if any requests depend on the txn.
initialTxns := make(map[wire.OutPoint]*SpendReport)
for _, tx := range block.Transactions {
// If our reverse index has been cleared, we are done.
if len(txidReverseIndex) == 0 {
break
}
hash := tx.TxHash()
txidReqs, ok := txidReverseIndex[hash]
if !ok {
continue
}
delete(txidReverseIndex, hash)
// For all requests that are watching this txid, use the output
// index of each to grab the initial output.
txOuts := tx.TxOut
for _, req := range txidReqs {
op := req.Input.OutPoint
// Ensure that the outpoint's index references an actual
// output on the transaction. If not, we will be unable
// to find the initial output.
if op.Index >= uint32(len(txOuts)) {
log.Errorf("Failed to find outpoint %s -- "+
"invalid output index", op)
initialTxns[op] = nil
continue
}
initialTxns[op] = &SpendReport{
Output: txOuts[op.Index],
}
}
}
// Finally, we must reconcile any requests for which the txid did not
// exist in this block. A nil spend report is saved for every initial
// txn that could not be found, otherwise the result is copied from scan
// above. The copied values can include valid initial txns, as well as
// nil spend report if the output index was invalid.
for _, req := range newReqs {
tx, ok := initialTxns[req.Input.OutPoint]
switch {
case !ok:
log.Debugf("Outpoint %v not found in block %d ",
req.Input.OutPoint, height)
initialTxns[req.Input.OutPoint] = nil
case tx != nil:
log.Tracef("Block %d creates output %s",
height, req.Input.OutPoint)
default:
}
b.initialTxns[req.Input.OutPoint] = tx
}
return initialTxns
}
// notifySpends finds any transactions in the block that spend from our watched
// outpoints. If a spend is detected, it is immediately delivered and cleaned up
// from the reporter's internal state.
func (b *batchSpendReporter) notifySpends(block *wire.MsgBlock,
height uint32) map[wire.OutPoint]*SpendReport {
spends := make(map[wire.OutPoint]*SpendReport)
for _, tx := range block.Transactions {
// Check each input to see if this transaction spends one of our
// watched outpoints.
for i, ti := range tx.TxIn {
outpoint := ti.PreviousOutPoint
// Find the requests this spend relates to.
requests, ok := b.requests[outpoint]
if !ok {
continue
}
log.Debugf("UTXO %v spent by txn %v", outpoint,
tx.TxHash())
spend := &SpendReport{
SpendingTx: tx,
SpendingInputIndex: uint32(i),
SpendingTxHeight: height,
}
spends[outpoint] = spend
// With the requests located, we remove this outpoint
// from both the requests, outpoints, and initial txns
// map. This will ensures we don't continue watching
// this outpoint.
b.notifyRequests(&outpoint, requests, spend, nil)
}
}
return spends
}