lbcwallet/wtxmgr/query.go
Josh Rickmar 4656a00705 Improve wallet atomicity.
This changes the database access APIs and each of the "manager"
packages (waddrmgr/wstakemgr) so that transactions are opened (only)
by the wallet package and the namespace buckets that each manager
expects to operate on are passed in as parameters.

This helps improve the atomicity situation as it means that many
calls to these APIs can be grouped together into a single
database transaction.

This change does not attempt to completely fix the "half-processed"
block problem.  Mined transactions are still added to the wallet
database under their own database transaction as this is how they are
notified by the consensus JSON-RPC server (as loose transactions,
without the rest of the block that contains them). It will make
updating to a fixed notification model significantly easier, as the
same "manager" APIs can still be used, but grouped into a single
atomic transaction.
2018-05-23 19:38:56 -07:00

455 lines
13 KiB
Go

// Copyright (c) 2015-2017 The btcsuite developers
// Copyright (c) 2015-2016 The Decred developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package wtxmgr
import (
"fmt"
"github.com/btcsuite/btcd/chaincfg/chainhash"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwallet/walletdb"
)
// CreditRecord contains metadata regarding a transaction credit for a known
// transaction. Further details may be looked up by indexing a wire.MsgTx.TxOut
// with the Index field.
type CreditRecord struct {
Amount btcutil.Amount
Index uint32
Spent bool
Change bool
}
// DebitRecord contains metadata regarding a transaction debit for a known
// transaction. Further details may be looked up by indexing a wire.MsgTx.TxIn
// with the Index field.
type DebitRecord struct {
Amount btcutil.Amount
Index uint32
}
// TxDetails is intended to provide callers with access to rich details
// regarding a relevant transaction and which inputs and outputs are credit or
// debits.
type TxDetails struct {
TxRecord
Block BlockMeta
Credits []CreditRecord
Debits []DebitRecord
}
// minedTxDetails fetches the TxDetails for the mined transaction with hash
// txHash and the passed tx record key and value.
func (s *Store) minedTxDetails(ns walletdb.ReadBucket, txHash *chainhash.Hash, recKey, recVal []byte) (*TxDetails, error) {
var details TxDetails
// Parse transaction record k/v, lookup the full block record for the
// block time, and read all matching credits, debits.
err := readRawTxRecord(txHash, recVal, &details.TxRecord)
if err != nil {
return nil, err
}
err = readRawTxRecordBlock(recKey, &details.Block.Block)
if err != nil {
return nil, err
}
details.Block.Time, err = fetchBlockTime(ns, details.Block.Height)
if err != nil {
return nil, err
}
credIter := makeReadCreditIterator(ns, recKey)
for credIter.next() {
if int(credIter.elem.Index) >= len(details.MsgTx.TxOut) {
str := "saved credit index exceeds number of outputs"
return nil, storeError(ErrData, str, nil)
}
// The credit iterator does not record whether this credit was
// spent by an unmined transaction, so check that here.
if !credIter.elem.Spent {
k := canonicalOutPoint(txHash, credIter.elem.Index)
spent := existsRawUnminedInput(ns, k) != nil
credIter.elem.Spent = spent
}
details.Credits = append(details.Credits, credIter.elem)
}
if credIter.err != nil {
return nil, credIter.err
}
debIter := makeReadDebitIterator(ns, recKey)
for debIter.next() {
if int(debIter.elem.Index) >= len(details.MsgTx.TxIn) {
str := "saved debit index exceeds number of inputs"
return nil, storeError(ErrData, str, nil)
}
details.Debits = append(details.Debits, debIter.elem)
}
return &details, debIter.err
}
// unminedTxDetails fetches the TxDetails for the unmined transaction with the
// hash txHash and the passed unmined record value.
func (s *Store) unminedTxDetails(ns walletdb.ReadBucket, txHash *chainhash.Hash, v []byte) (*TxDetails, error) {
details := TxDetails{
Block: BlockMeta{Block: Block{Height: -1}},
}
err := readRawTxRecord(txHash, v, &details.TxRecord)
if err != nil {
return nil, err
}
it := makeReadUnminedCreditIterator(ns, txHash)
for it.next() {
if int(it.elem.Index) >= len(details.MsgTx.TxOut) {
str := "saved credit index exceeds number of outputs"
return nil, storeError(ErrData, str, nil)
}
// Set the Spent field since this is not done by the iterator.
it.elem.Spent = existsRawUnminedInput(ns, it.ck) != nil
details.Credits = append(details.Credits, it.elem)
}
if it.err != nil {
return nil, it.err
}
// Debit records are not saved for unmined transactions. Instead, they
// must be looked up for each transaction input manually. There are two
// kinds of previous credits that may be debited by an unmined
// transaction: mined unspent outputs (which remain marked unspent even
// when spent by an unmined transaction), and credits from other unmined
// transactions. Both situations must be considered.
for i, output := range details.MsgTx.TxIn {
opKey := canonicalOutPoint(&output.PreviousOutPoint.Hash,
output.PreviousOutPoint.Index)
credKey := existsRawUnspent(ns, opKey)
if credKey != nil {
v := existsRawCredit(ns, credKey)
amount, err := fetchRawCreditAmount(v)
if err != nil {
return nil, err
}
details.Debits = append(details.Debits, DebitRecord{
Amount: amount,
Index: uint32(i),
})
continue
}
v := existsRawUnminedCredit(ns, opKey)
if v == nil {
continue
}
amount, err := fetchRawCreditAmount(v)
if err != nil {
return nil, err
}
details.Debits = append(details.Debits, DebitRecord{
Amount: amount,
Index: uint32(i),
})
}
return &details, nil
}
// TxDetails looks up all recorded details regarding a transaction with some
// hash. In case of a hash collision, the most recent transaction with a
// matching hash is returned.
//
// Not finding a transaction with this hash is not an error. In this case,
// a nil TxDetails is returned.
func (s *Store) TxDetails(ns walletdb.ReadBucket, txHash *chainhash.Hash) (*TxDetails, error) {
// First, check whether there exists an unmined transaction with this
// hash. Use it if found.
v := existsRawUnmined(ns, txHash[:])
if v != nil {
return s.unminedTxDetails(ns, txHash, v)
}
// Otherwise, if there exists a mined transaction with this matching
// hash, skip over to the newest and begin fetching all details.
k, v := latestTxRecord(ns, txHash)
if v == nil {
// not found
return nil, nil
}
return s.minedTxDetails(ns, txHash, k, v)
}
// UniqueTxDetails looks up all recorded details for a transaction recorded
// mined in some particular block, or an unmined transaction if block is nil.
//
// Not finding a transaction with this hash from this block is not an error. In
// this case, a nil TxDetails is returned.
func (s *Store) UniqueTxDetails(ns walletdb.ReadBucket, txHash *chainhash.Hash,
block *Block) (*TxDetails, error) {
if block == nil {
v := existsRawUnmined(ns, txHash[:])
if v == nil {
return nil, nil
}
return s.unminedTxDetails(ns, txHash, v)
}
k, v := existsTxRecord(ns, txHash, block)
if v == nil {
return nil, nil
}
return s.minedTxDetails(ns, txHash, k, v)
}
// rangeUnminedTransactions executes the function f with TxDetails for every
// unmined transaction. f is not executed if no unmined transactions exist.
// Error returns from f (if any) are propigated to the caller. Returns true
// (signaling breaking out of a RangeTransactions) iff f executes and returns
// true.
func (s *Store) rangeUnminedTransactions(ns walletdb.ReadBucket, f func([]TxDetails) (bool, error)) (bool, error) {
var details []TxDetails
err := ns.NestedReadBucket(bucketUnmined).ForEach(func(k, v []byte) error {
if len(k) < 32 {
str := fmt.Sprintf("%s: short key (expected %d "+
"bytes, read %d)", bucketUnmined, 32, len(k))
return storeError(ErrData, str, nil)
}
var txHash chainhash.Hash
copy(txHash[:], k)
detail, err := s.unminedTxDetails(ns, &txHash, v)
if err != nil {
return err
}
// Because the key was created while foreach-ing over the
// bucket, it should be impossible for unminedTxDetails to ever
// successfully return a nil details struct.
details = append(details, *detail)
return nil
})
if err == nil && len(details) > 0 {
return f(details)
}
return false, err
}
// rangeBlockTransactions executes the function f with TxDetails for every block
// between heights begin and end (reverse order when end > begin) until f
// returns true, or the transactions from block is processed. Returns true iff
// f executes and returns true.
func (s *Store) rangeBlockTransactions(ns walletdb.ReadBucket, begin, end int32,
f func([]TxDetails) (bool, error)) (bool, error) {
// Mempool height is considered a high bound.
if begin < 0 {
begin = int32(^uint32(0) >> 1)
}
if end < 0 {
end = int32(^uint32(0) >> 1)
}
var blockIter blockIterator
var advance func(*blockIterator) bool
if begin < end {
// Iterate in forwards order
blockIter = makeReadBlockIterator(ns, begin)
advance = func(it *blockIterator) bool {
if !it.next() {
return false
}
return it.elem.Height <= end
}
} else {
// Iterate in backwards order, from begin -> end.
blockIter = makeReadBlockIterator(ns, begin)
advance = func(it *blockIterator) bool {
if !it.prev() {
return false
}
return end <= it.elem.Height
}
}
var details []TxDetails
for advance(&blockIter) {
block := &blockIter.elem
if cap(details) < len(block.transactions) {
details = make([]TxDetails, 0, len(block.transactions))
} else {
details = details[:0]
}
for _, txHash := range block.transactions {
k := keyTxRecord(&txHash, &block.Block)
v := existsRawTxRecord(ns, k)
if v == nil {
str := fmt.Sprintf("missing transaction %v for "+
"block %v", txHash, block.Height)
return false, storeError(ErrData, str, nil)
}
detail := TxDetails{
Block: BlockMeta{
Block: block.Block,
Time: block.Time,
},
}
err := readRawTxRecord(&txHash, v, &detail.TxRecord)
if err != nil {
return false, err
}
credIter := makeReadCreditIterator(ns, k)
for credIter.next() {
if int(credIter.elem.Index) >= len(detail.MsgTx.TxOut) {
str := "saved credit index exceeds number of outputs"
return false, storeError(ErrData, str, nil)
}
// The credit iterator does not record whether
// this credit was spent by an unmined
// transaction, so check that here.
if !credIter.elem.Spent {
k := canonicalOutPoint(&txHash, credIter.elem.Index)
spent := existsRawUnminedInput(ns, k) != nil
credIter.elem.Spent = spent
}
detail.Credits = append(detail.Credits, credIter.elem)
}
if credIter.err != nil {
return false, credIter.err
}
debIter := makeReadDebitIterator(ns, k)
for debIter.next() {
if int(debIter.elem.Index) >= len(detail.MsgTx.TxIn) {
str := "saved debit index exceeds number of inputs"
return false, storeError(ErrData, str, nil)
}
detail.Debits = append(detail.Debits, debIter.elem)
}
if debIter.err != nil {
return false, debIter.err
}
details = append(details, detail)
}
// Every block record must have at least one transaction, so it
// is safe to call f.
brk, err := f(details)
if err != nil || brk {
return brk, err
}
}
return false, blockIter.err
}
// RangeTransactions runs the function f on all transaction details between
// blocks on the best chain over the height range [begin,end]. The special
// height -1 may be used to also include unmined transactions. If the end
// height comes before the begin height, blocks are iterated in reverse order
// and unmined transactions (if any) are processed first.
//
// The function f may return an error which, if non-nil, is propagated to the
// caller. Additionally, a boolean return value allows exiting the function
// early without reading any additional transactions early when true.
//
// All calls to f are guaranteed to be passed a slice with more than zero
// elements. The slice may be reused for multiple blocks, so it is not safe to
// use it after the loop iteration it was acquired.
func (s *Store) RangeTransactions(ns walletdb.ReadBucket, begin, end int32,
f func([]TxDetails) (bool, error)) error {
var addedUnmined bool
if begin < 0 {
brk, err := s.rangeUnminedTransactions(ns, f)
if err != nil || brk {
return err
}
addedUnmined = true
}
brk, err := s.rangeBlockTransactions(ns, begin, end, f)
if err == nil && !brk && !addedUnmined && end < 0 {
_, err = s.rangeUnminedTransactions(ns, f)
}
return err
}
// PreviousPkScripts returns a slice of previous output scripts for each credit
// output this transaction record debits from.
func (s *Store) PreviousPkScripts(ns walletdb.ReadBucket, rec *TxRecord, block *Block) ([][]byte, error) {
var pkScripts [][]byte
if block == nil {
for _, input := range rec.MsgTx.TxIn {
prevOut := &input.PreviousOutPoint
// Input may spend a previous unmined output, a
// mined output (which would still be marked
// unspent), or neither.
v := existsRawUnmined(ns, prevOut.Hash[:])
if v != nil {
// Ensure a credit exists for this
// unmined transaction before including
// the output script.
k := canonicalOutPoint(&prevOut.Hash, prevOut.Index)
if existsRawUnminedCredit(ns, k) == nil {
continue
}
pkScript, err := fetchRawTxRecordPkScript(
prevOut.Hash[:], v, prevOut.Index)
if err != nil {
return nil, err
}
pkScripts = append(pkScripts, pkScript)
continue
}
_, credKey := existsUnspent(ns, prevOut)
if credKey != nil {
k := extractRawCreditTxRecordKey(credKey)
v = existsRawTxRecord(ns, k)
pkScript, err := fetchRawTxRecordPkScript(k, v,
prevOut.Index)
if err != nil {
return nil, err
}
pkScripts = append(pkScripts, pkScript)
continue
}
}
return pkScripts, nil
}
recKey := keyTxRecord(&rec.Hash, block)
it := makeReadDebitIterator(ns, recKey)
for it.next() {
credKey := extractRawDebitCreditKey(it.cv)
index := extractRawCreditIndex(credKey)
k := extractRawCreditTxRecordKey(credKey)
v := existsRawTxRecord(ns, k)
pkScript, err := fetchRawTxRecordPkScript(k, v, index)
if err != nil {
return nil, err
}
pkScripts = append(pkScripts, pkScript)
}
if it.err != nil {
return nil, it.err
}
return pkScripts, nil
}