lbcwallet/chain/neutrino.go

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package chain
import (
"errors"
"fmt"
"sync"
"time"
"github.com/lightninglabs/neutrino"
"github.com/roasbeef/btcd/chaincfg/chainhash"
"github.com/roasbeef/btcd/wire"
"github.com/roasbeef/btcrpcclient"
"github.com/roasbeef/btcutil"
"github.com/roasbeef/btcwallet/waddrmgr"
"github.com/roasbeef/btcwallet/wtxmgr"
)
// NeutrinoClient is an implementation of the btcwalet chain.Interface interface.
type NeutrinoClient struct {
CS *neutrino.ChainService
// We currently support one rescan/notifiction goroutine per client
rescan neutrino.Rescan
enqueueNotification chan interface{}
dequeueNotification chan interface{}
currentBlock chan *waddrmgr.BlockStamp
quit chan struct{}
rescanQuit chan struct{}
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rescanErr <-chan error
wg sync.WaitGroup
started bool
scanning bool
finished bool
clientMtx sync.Mutex
}
// NewNeutrinoClient creates a new NeutrinoClient struct with a backing
// ChainService.
func NewNeutrinoClient(chainService *neutrino.ChainService) *NeutrinoClient {
return &NeutrinoClient{CS: chainService}
}
// Start replicates the RPC client's Start method.
func (s *NeutrinoClient) Start() error {
s.CS.Start()
s.clientMtx.Lock()
defer s.clientMtx.Unlock()
if !s.started {
s.enqueueNotification = make(chan interface{})
s.dequeueNotification = make(chan interface{})
s.currentBlock = make(chan *waddrmgr.BlockStamp)
s.quit = make(chan struct{})
s.started = true
s.wg.Add(1)
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go func() {
select {
case s.enqueueNotification <- ClientConnected{}:
case <-s.quit:
return
}
}()
go s.notificationHandler()
}
return nil
}
// Stop replicates the RPC client's Stop method.
func (s *NeutrinoClient) Stop() {
s.clientMtx.Lock()
defer s.clientMtx.Unlock()
if !s.started {
return
}
close(s.quit)
s.started = false
}
// WaitForShutdown replicates the RPC client's WaitForShutdown method.
func (s *NeutrinoClient) WaitForShutdown() {
s.wg.Wait()
}
// GetBlock replicates the RPC client's GetBlock command.
func (s *NeutrinoClient) GetBlock(hash *chainhash.Hash) (*wire.MsgBlock, error) {
// TODO(roasbeef): add a block cache?
// * which evication strategy? depends on use case
// Should the block cache be INSIDE neutrino instead of in btcwallet?
block, err := s.CS.GetBlockFromNetwork(*hash)
if err != nil {
return nil, err
}
return block.MsgBlock(), nil
}
// GetBlockHeight gets the height of a block by its hash. It serves as a
// replacement for the use of GetBlockVerboseTxAsync for the wallet package
// since we can't actually return a FutureGetBlockVerboseResult because the
// underlying type is private to btcrpcclient.
func (s *NeutrinoClient) GetBlockHeight(hash *chainhash.Hash) (int32, error) {
_, height, err := s.CS.BlockHeaders.FetchHeader(hash)
if err != nil {
return 0, err
}
return int32(height), nil
}
// GetBestBlock replicates the RPC client's GetBestBlock command.
func (s *NeutrinoClient) GetBestBlock() (*chainhash.Hash, int32, error) {
chainTip, err := s.CS.BestSnapshot()
if err != nil {
return nil, 0, err
}
return &chainTip.Hash, chainTip.Height, nil
}
// BlockStamp returns the latest block notified by the client, or an error
// if the client has been shut down.
func (s *NeutrinoClient) BlockStamp() (*waddrmgr.BlockStamp, error) {
select {
case bs := <-s.currentBlock:
return bs, nil
case <-s.quit:
return nil, errors.New("disconnected")
}
}
// GetBlockHash returns the block hash for the given height, or an error if the
// client has been shut down or the hash at the block height doesn't exist or
// is unknown.
func (s *NeutrinoClient) GetBlockHash(height int64) (*chainhash.Hash, error) {
header, err := s.CS.BlockHeaders.FetchHeaderByHeight(uint32(height))
if err != nil {
return nil, err
}
hash := header.BlockHash()
return &hash, nil
}
// SendRawTransaction replicates the RPC client's SendRawTransaction command.
func (s *NeutrinoClient) SendRawTransaction(tx *wire.MsgTx, allowHighFees bool) (
*chainhash.Hash, error) {
err := s.CS.SendTransaction(tx)
if err != nil {
return nil, err
}
hash := tx.TxHash()
return &hash, nil
}
// Rescan replicates the RPC client's Rescan command.
func (s *NeutrinoClient) Rescan(startHash *chainhash.Hash, addrs []btcutil.Address,
outPoints []*wire.OutPoint) error {
s.clientMtx.Lock()
defer s.clientMtx.Unlock()
if !s.started {
return fmt.Errorf("can't do a rescan when the chain client " +
"is not started")
}
if s.scanning {
// Restart the rescan by killing the existing rescan.
close(s.rescanQuit)
s.rescan.WaitForShutdown()
}
s.rescanQuit = make(chan struct{})
s.scanning = true
s.finished = false
watchOutPoints := make([]wire.OutPoint, 0, len(outPoints))
for _, op := range outPoints {
watchOutPoints = append(watchOutPoints, *op)
}
header, height, err := s.CS.BlockHeaders.ChainTip()
if err != nil {
return fmt.Errorf("Can't get chain service's best block: %s", err)
}
// If the wallet is already fully caught up, or the rescan has started
// with state that indicates a "fresh" wallet, we'll send a
// notification indicating the rescan has "finished".
if header.BlockHash() == *startHash {
s.finished = true
select {
case s.enqueueNotification <- &RescanFinished{
Hash: startHash,
Height: int32(height),
Time: header.Timestamp,
}:
case <-s.quit:
return nil
case <-s.rescanQuit:
return nil
}
}
s.rescan = s.CS.NewRescan(
neutrino.NotificationHandlers(btcrpcclient.NotificationHandlers{
OnBlockConnected: s.onBlockConnected,
OnFilteredBlockConnected: s.onFilteredBlockConnected,
OnBlockDisconnected: s.onBlockDisconnected,
}),
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neutrino.StartBlock(&waddrmgr.BlockStamp{Hash: *startHash}),
neutrino.QuitChan(s.rescanQuit),
neutrino.WatchAddrs(addrs...),
neutrino.WatchOutPoints(watchOutPoints...),
)
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s.rescanErr = s.rescan.Start()
return nil
}
// NotifyBlocks replicates the RPC client's NotifyBlocks command.
func (s *NeutrinoClient) NotifyBlocks() error {
s.clientMtx.Lock()
// If we're scanning, we're already notifying on blocks. Otherwise,
// start a rescan without watching any addresses.
if !s.scanning {
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s.clientMtx.Unlock()
return s.NotifyReceived([]btcutil.Address{})
}
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s.clientMtx.Unlock()
return nil
}
// NotifyReceived replicates the RPC client's NotifyReceived command.
func (s *NeutrinoClient) NotifyReceived(addrs []btcutil.Address) error {
s.clientMtx.Lock()
defer s.clientMtx.Unlock()
// If we have a rescan running, we just need to add the appropriate
// addresses to the watch list.
if s.scanning {
s.clientMtx.Unlock()
return s.rescan.Update(neutrino.AddAddrs(addrs...))
}
s.rescanQuit = make(chan struct{})
s.scanning = true
// Don't need RescanFinished notifications.
s.finished = true
// Rescan with just the specified addresses.
s.rescan = s.CS.NewRescan(
neutrino.NotificationHandlers(btcrpcclient.NotificationHandlers{
OnBlockConnected: s.onBlockConnected,
OnFilteredBlockConnected: s.onFilteredBlockConnected,
OnBlockDisconnected: s.onBlockDisconnected,
}),
neutrino.QuitChan(s.rescanQuit),
neutrino.WatchAddrs(addrs...),
)
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s.rescanErr = s.rescan.Start()
return nil
}
// Notifications replicates the RPC client's Notifications method.
func (s *NeutrinoClient) Notifications() <-chan interface{} {
return s.dequeueNotification
}
// onFilteredBlockConnected sends appropriate notifications to the notification
// channel.
func (s *NeutrinoClient) onFilteredBlockConnected(height int32,
header *wire.BlockHeader, relevantTxs []*btcutil.Tx) {
ntfn := FilteredBlockConnected{
Block: &wtxmgr.BlockMeta{
Block: wtxmgr.Block{
Hash: header.BlockHash(),
Height: height,
},
Time: header.Timestamp,
},
}
for _, tx := range relevantTxs {
rec, err := wtxmgr.NewTxRecordFromMsgTx(tx.MsgTx(),
header.Timestamp)
if err != nil {
log.Errorf("Cannot create transaction record for "+
"relevant tx: %s", err)
// TODO(aakselrod): Return?
continue
}
ntfn.RelevantTxs = append(ntfn.RelevantTxs, rec)
}
select {
case s.enqueueNotification <- ntfn:
case <-s.quit:
return
case <-s.rescanQuit:
return
}
bs, err := s.CS.BestSnapshot()
if err != nil {
log.Errorf("Can't get chain service's best block: %s", err)
return
}
if bs.Hash == header.BlockHash() {
// Only send the RescanFinished notification once.
s.clientMtx.Lock()
if s.finished {
s.clientMtx.Unlock()
return
}
s.finished = true
s.clientMtx.Unlock()
select {
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case s.enqueueNotification <- &RescanFinished{
Hash: &bs.Hash,
Height: bs.Height,
Time: header.Timestamp,
}:
case <-s.quit:
return
case <-s.rescanQuit:
return
}
}
}
// onBlockDisconnected sends appropriate notifications to the notification
// channel.
func (s *NeutrinoClient) onBlockDisconnected(hash *chainhash.Hash, height int32,
t time.Time) {
select {
case s.enqueueNotification <- BlockDisconnected{
Block: wtxmgr.Block{
Hash: *hash,
Height: height,
},
Time: t,
}:
case <-s.quit:
case <-s.rescanQuit:
}
}
func (s *NeutrinoClient) onBlockConnected(hash *chainhash.Hash, height int32,
time time.Time) {
select {
case s.enqueueNotification <- BlockConnected{
Block: wtxmgr.Block{
Hash: *hash,
Height: height,
},
Time: time,
}:
case <-s.quit:
case <-s.rescanQuit:
}
}
// notificationHandler queues and dequeues notifications. There are currently
// no bounds on the queue, so the dequeue channel should be read continually to
// avoid running out of memory.
func (s *NeutrinoClient) notificationHandler() {
hash, height, err := s.GetBestBlock()
if err != nil {
log.Errorf("Failed to get best block from chain service: %s",
err)
s.Stop()
s.wg.Done()
return
}
bs := &waddrmgr.BlockStamp{Hash: *hash, Height: height}
// TODO: Rather than leaving this as an unbounded queue for all types of
// notifications, try dropping ones where a later enqueued notification
// can fully invalidate one waiting to be processed. For example,
// blockconnected notifications for greater block heights can remove the
// need to process earlier blockconnected notifications still waiting
// here.
var notifications []interface{}
enqueue := s.enqueueNotification
var dequeue chan interface{}
var next interface{}
out:
for {
select {
case n, ok := <-enqueue:
if !ok {
// If no notifications are queued for handling,
// the queue is finished.
if len(notifications) == 0 {
break out
}
// nil channel so no more reads can occur.
enqueue = nil
continue
}
if len(notifications) == 0 {
next = n
dequeue = s.dequeueNotification
}
notifications = append(notifications, n)
case dequeue <- next:
if n, ok := next.(BlockConnected); ok {
bs = &waddrmgr.BlockStamp{
Height: n.Height,
Hash: n.Hash,
}
}
notifications[0] = nil
notifications = notifications[1:]
if len(notifications) != 0 {
next = notifications[0]
} else {
// If no more notifications can be enqueued, the
// queue is finished.
if enqueue == nil {
break out
}
dequeue = nil
}
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case err := <-s.rescanErr:
if err != nil {
log.Errorf("Neutrino rescan ended with error: %s", err)
}
case s.currentBlock <- bs:
case <-s.quit:
break out
}
}
s.Stop()
close(s.dequeueNotification)
s.wg.Done()
}