lbcd/blockchain/scriptval.go
Dave Collins b69a849114 Import btcchain repo into blockchain directory.
This commit contains the entire btcchain repository along with several
changes needed to move all of the files into the blockchain directory in
order to prepare it for merging.  This does NOT update btcd or any of the
other packages to use the new location as that will be done separately.

- All import paths in the old btcchain test files have been changed to
  the new location
- All references to btcchain as the package name have been changed to
  blockchain
2015-01-30 15:49:59 -06:00

262 lines
7.4 KiB
Go

// Copyright (c) 2013-2014 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package blockchain
import (
"fmt"
"math"
"runtime"
"github.com/btcsuite/btcd/txscript"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwire"
)
// txValidateItem holds a transaction along with which input to validate.
type txValidateItem struct {
txInIndex int
txIn *btcwire.TxIn
tx *btcutil.Tx
}
// txValidator provides a type which asynchronously validates transaction
// inputs. It provides several channels for communication and a processing
// function that is intended to be in run multiple goroutines.
type txValidator struct {
validateChan chan *txValidateItem
quitChan chan struct{}
resultChan chan error
txStore TxStore
flags txscript.ScriptFlags
}
// sendResult sends the result of a script pair validation on the internal
// result channel while respecting the quit channel. The allows orderly
// shutdown when the validation process is aborted early due to a validation
// error in one of the other goroutines.
func (v *txValidator) sendResult(result error) {
select {
case v.resultChan <- result:
case <-v.quitChan:
}
}
// validateHandler consumes items to validate from the internal validate channel
// and returns the result of the validation on the internal result channel. It
// must be run as a goroutine.
func (v *txValidator) validateHandler() {
out:
for {
select {
case txVI := <-v.validateChan:
// Ensure the referenced input transaction is available.
txIn := txVI.txIn
originTxHash := &txIn.PreviousOutPoint.Hash
originTx, exists := v.txStore[*originTxHash]
if !exists || originTx.Err != nil || originTx.Tx == nil {
str := fmt.Sprintf("unable to find input "+
"transaction %v referenced from "+
"transaction %v", originTxHash,
txVI.tx.Sha())
err := ruleError(ErrMissingTx, str)
v.sendResult(err)
break out
}
originMsgTx := originTx.Tx.MsgTx()
// Ensure the output index in the referenced transaction
// is available.
originTxIndex := txIn.PreviousOutPoint.Index
if originTxIndex >= uint32(len(originMsgTx.TxOut)) {
str := fmt.Sprintf("out of bounds "+
"input index %d in transaction %v "+
"referenced from transaction %v",
originTxIndex, originTxHash,
txVI.tx.Sha())
err := ruleError(ErrBadTxInput, str)
v.sendResult(err)
break out
}
// Create a new script engine for the script pair.
sigScript := txIn.SignatureScript
pkScript := originMsgTx.TxOut[originTxIndex].PkScript
engine, err := txscript.NewScript(sigScript, pkScript,
txVI.txInIndex, txVI.tx.MsgTx(), v.flags)
if err != nil {
str := fmt.Sprintf("failed to parse input "+
"%s:%d which references output %s:%d - "+
"%v (input script bytes %x, prev output "+
"script bytes %x)", txVI.tx.Sha(),
txVI.txInIndex, originTxHash,
originTxIndex, err, sigScript, pkScript)
err := ruleError(ErrScriptMalformed, str)
v.sendResult(err)
break out
}
// Execute the script pair.
if err := engine.Execute(); err != nil {
str := fmt.Sprintf("failed to validate input "+
"%s:%d which references output %s:%d - "+
"%v (input script bytes %x, prev output "+
"script bytes %x)", txVI.tx.Sha(),
txVI.txInIndex, originTxHash,
originTxIndex, err, sigScript, pkScript)
err := ruleError(ErrScriptValidation, str)
v.sendResult(err)
break out
}
// Validation succeeded.
v.sendResult(nil)
case <-v.quitChan:
break out
}
}
}
// Validate validates the scripts for all of the passed transaction inputs using
// multiple goroutines.
func (v *txValidator) Validate(items []*txValidateItem) error {
if len(items) == 0 {
return nil
}
// Limit the number of goroutines to do script validation based on the
// number of processor cores. This help ensure the system stays
// reasonably responsive under heavy load.
maxGoRoutines := runtime.NumCPU() * 3
if maxGoRoutines <= 0 {
maxGoRoutines = 1
}
if maxGoRoutines > len(items) {
maxGoRoutines = len(items)
}
// Start up validation handlers that are used to asynchronously
// validate each transaction input.
for i := 0; i < maxGoRoutines; i++ {
go v.validateHandler()
}
// Validate each of the inputs. The quit channel is closed when any
// errors occur so all processing goroutines exit regardless of which
// input had the validation error.
numInputs := len(items)
currentItem := 0
processedItems := 0
for processedItems < numInputs {
// Only send items while there are still items that need to
// be processed. The select statement will never select a nil
// channel.
var validateChan chan *txValidateItem
var item *txValidateItem
if currentItem < numInputs {
validateChan = v.validateChan
item = items[currentItem]
}
select {
case validateChan <- item:
currentItem++
case err := <-v.resultChan:
processedItems++
if err != nil {
close(v.quitChan)
return err
}
}
}
close(v.quitChan)
return nil
}
// newTxValidator returns a new instance of txValidator to be used for
// validating transaction scripts asynchronously.
func newTxValidator(txStore TxStore, flags txscript.ScriptFlags) *txValidator {
return &txValidator{
validateChan: make(chan *txValidateItem),
quitChan: make(chan struct{}),
resultChan: make(chan error),
txStore: txStore,
flags: flags,
}
}
// ValidateTransactionScripts validates the scripts for the passed transaction
// using multiple goroutines.
func ValidateTransactionScripts(tx *btcutil.Tx, txStore TxStore, flags txscript.ScriptFlags) error {
// Collect all of the transaction inputs and required information for
// validation.
txIns := tx.MsgTx().TxIn
txValItems := make([]*txValidateItem, 0, len(txIns))
for txInIdx, txIn := range txIns {
// Skip coinbases.
if txIn.PreviousOutPoint.Index == math.MaxUint32 {
continue
}
txVI := &txValidateItem{
txInIndex: txInIdx,
txIn: txIn,
tx: tx,
}
txValItems = append(txValItems, txVI)
}
// Validate all of the inputs.
validator := newTxValidator(txStore, flags)
if err := validator.Validate(txValItems); err != nil {
return err
}
return nil
}
// checkBlockScripts executes and validates the scripts for all transactions in
// the passed block.
func checkBlockScripts(block *btcutil.Block, txStore TxStore) error {
// Setup the script validation flags. Blocks created after the BIP0016
// activation time need to have the pay-to-script-hash checks enabled.
var flags txscript.ScriptFlags
if block.MsgBlock().Header.Timestamp.After(txscript.Bip16Activation) {
flags |= txscript.ScriptBip16
}
// Collect all of the transaction inputs and required information for
// validation for all transactions in the block into a single slice.
numInputs := 0
for _, tx := range block.Transactions() {
numInputs += len(tx.MsgTx().TxIn)
}
txValItems := make([]*txValidateItem, 0, numInputs)
for _, tx := range block.Transactions() {
for txInIdx, txIn := range tx.MsgTx().TxIn {
// Skip coinbases.
if txIn.PreviousOutPoint.Index == math.MaxUint32 {
continue
}
txVI := &txValidateItem{
txInIndex: txInIdx,
txIn: txIn,
tx: tx,
}
txValItems = append(txValItems, txVI)
}
}
// Validate all of the inputs.
validator := newTxValidator(txStore, flags)
if err := validator.Validate(txValItems); err != nil {
return err
}
return nil
}