lbcwallet/chain/block_filterer.go

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package chain
import (
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcd/txscript"
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwallet/waddrmgr"
)
// BlockFilterer is used to iteratively scan blocks for a set of addresses of
// interest. This is done by constructing reverse indexes mapping the
// addresses to a ScopedIndex, which permits the reconstruction of the exact
// child deriviation paths that reported matches.
//
// Once initialized, a BlockFilterer can be used to scan any number of blocks
// until a invocation of `FilterBlock` returns true. This allows the reverse
// indexes to be resused in the event that the set of addresses does not need to
// be altered. After a match is reported, a new BlockFilterer should be
// initialized with the updated set of addresses that include any new keys that
// are now within our look-ahead.
//
// We track internal and external addresses separately in order to conserve the
// amount of space occupied in memory. Specifically, the account and branch
// combined contribute only 1-bit of information when using the default scopes
// used by the wallet. Thus we can avoid storing an additional 64-bits per
// address of interest by not storing the full derivation paths, and instead
// opting to allow the caller to contextually infer the account (DefaultAccount)
// and branch (Internal or External).
type BlockFilterer struct {
// Params specifies the chain params of the current network.
Params *chaincfg.Params
// ExReverseFilter holds a reverse index mapping an external address to
// the scoped index from which it was derived.
ExReverseFilter map[string]waddrmgr.ScopedIndex
// InReverseFilter holds a reverse index mapping an internal address to
// the scoped index from which it was derived.
InReverseFilter map[string]waddrmgr.ScopedIndex
// WathcedOutPoints is a global set of outpoints being tracked by the
// wallet. This allows the block filterer to check for spends from an
// outpoint we own.
WatchedOutPoints map[wire.OutPoint]struct{}
// FoundExternal is a two-layer map recording the scope and index of
// external addresses found in a single block.
FoundExternal map[waddrmgr.KeyScope]map[uint32]struct{}
// FoundInternal is a two-layer map recording the scope and index of
// internal addresses found in a single block.
FoundInternal map[waddrmgr.KeyScope]map[uint32]struct{}
// FoundOutPoints is a set of outpoints found in a single block whose
// address belongs to the wallet.
FoundOutPoints map[wire.OutPoint]struct{}
// RelevantTxns records the transactions found in a particular block
// that contained matches from an address in either ExReverseFilter or
// InReverseFilter.
RelevantTxns []*wire.MsgTx
}
// NewBlockFilterer constructs the reverse indexes for the current set of
// external and internal addresses that we are searching for, and is used to
// scan successive blocks for addresses of interest. A particular block filter
// can be reused until the first call from `FitlerBlock` returns true.
func NewBlockFilterer(params *chaincfg.Params,
req *FilterBlocksRequest) *BlockFilterer {
// Construct a reverse index by address string for the requested
// external addresses.
nExAddrs := len(req.ExternalAddrs)
exReverseFilter := make(map[string]waddrmgr.ScopedIndex, nExAddrs)
for scopedIndex, addr := range req.ExternalAddrs {
exReverseFilter[addr.EncodeAddress()] = scopedIndex
}
// Construct a reverse index by address string for the requested
// internal addresses.
nInAddrs := len(req.InternalAddrs)
inReverseFilter := make(map[string]waddrmgr.ScopedIndex, nInAddrs)
for scopedIndex, addr := range req.InternalAddrs {
inReverseFilter[addr.EncodeAddress()] = scopedIndex
}
foundExternal := make(map[waddrmgr.KeyScope]map[uint32]struct{})
foundInternal := make(map[waddrmgr.KeyScope]map[uint32]struct{})
foundOutPoints := make(map[wire.OutPoint]struct{})
return &BlockFilterer{
Params: params,
ExReverseFilter: exReverseFilter,
InReverseFilter: inReverseFilter,
WatchedOutPoints: req.WatchedOutPoints,
FoundExternal: foundExternal,
FoundInternal: foundInternal,
FoundOutPoints: foundOutPoints,
}
}
// FilterBlock parses all txns in the provided block, searching for any that
// contain addresses of interest in either the external or internal reverse
// filters. This method return true iff the block contains a non-zero number of
// addresses of interest, or a transaction in the block spends from outpoints
// controlled by the wallet.
func (bf *BlockFilterer) FilterBlock(block *wire.MsgBlock) bool {
var hasRelevantTxns bool
for _, tx := range block.Transactions {
if bf.FilterTx(tx) {
bf.RelevantTxns = append(bf.RelevantTxns, tx)
hasRelevantTxns = true
}
}
return hasRelevantTxns
}
// FilterTx scans all txouts in the provided txn, testing to see if any found
// addresses match those contained within the external or internal reverse
// indexes. This method returns true iff the txn contains a non-zero number of
// addresses of interest, or the transaction spends from an outpoint that
// belongs to the wallet.
func (bf *BlockFilterer) FilterTx(tx *wire.MsgTx) bool {
var isRelevant bool
// First, check the inputs to this transaction to see if they spend any
// inputs belonging to the wallet. In addition to checking
// WatchedOutPoints, we also check FoundOutPoints, in case a txn spends
// from an outpoint created in the same block.
for _, in := range tx.TxIn {
if _, ok := bf.WatchedOutPoints[in.PreviousOutPoint]; ok {
isRelevant = true
}
if _, ok := bf.FoundOutPoints[in.PreviousOutPoint]; ok {
isRelevant = true
}
}
// Now, parse all of the outputs created by this transactions, and see
// if they contain any addresses known the wallet using our reverse
// indexes for both external and internal addresses. If a new output is
// found, we will add the outpoint to our set of FoundOutPoints.
for i, out := range tx.TxOut {
_, addrs, _, err := txscript.ExtractPkScriptAddrs(
out.PkScript, bf.Params,
)
if err != nil {
log.Warnf("Could not parse output script in %s:%d: %v",
tx.TxHash(), i, err)
continue
}
if !bf.FilterOutputAddrs(addrs) {
continue
}
// If we've reached this point, then the output contains an
// address of interest.
isRelevant = true
// Record the outpoint that containing the address in our set of
// found outpoints, so that the caller can update its global
// set of watched outpoints.
outPoint := wire.OutPoint{
Hash: *btcutil.NewTx(tx).Hash(),
Index: uint32(i),
}
bf.FoundOutPoints[outPoint] = struct{}{}
}
return isRelevant
}
// FilterOutputAddrs tests the set of addresses against the block filterer's
// external and internal reverse address indexes. If any are found, they are
// added to set of external and internal found addresses, respectively. This
// method returns true iff a non-zero number of the provided addresses are of
// interest.
func (bf *BlockFilterer) FilterOutputAddrs(addrs []btcutil.Address) bool {
var isRelevant bool
for _, addr := range addrs {
addrStr := addr.EncodeAddress()
if scopedIndex, ok := bf.ExReverseFilter[addrStr]; ok {
bf.foundExternal(scopedIndex)
isRelevant = true
}
if scopedIndex, ok := bf.InReverseFilter[addrStr]; ok {
bf.foundInternal(scopedIndex)
isRelevant = true
}
}
return isRelevant
}
// foundExternal marks the scoped index as found within the block filterer's
// FoundExternal map. If this the first index found for a particular scope, the
// scope's second layer map will be initialized before marking the index.
func (bf *BlockFilterer) foundExternal(scopedIndex waddrmgr.ScopedIndex) {
if _, ok := bf.FoundExternal[scopedIndex.Scope]; !ok {
bf.FoundExternal[scopedIndex.Scope] = make(map[uint32]struct{})
}
bf.FoundExternal[scopedIndex.Scope][scopedIndex.Index] = struct{}{}
}
// foundInternal marks the scoped index as found within the block filterer's
// FoundInternal map. If this the first index found for a particular scope, the
// scope's second layer map will be initialized before marking the index.
func (bf *BlockFilterer) foundInternal(scopedIndex waddrmgr.ScopedIndex) {
if _, ok := bf.FoundInternal[scopedIndex.Scope]; !ok {
bf.FoundInternal[scopedIndex.Scope] = make(map[uint32]struct{})
}
bf.FoundInternal[scopedIndex.Scope][scopedIndex.Index] = struct{}{}
}