lbcwallet/wallet/rescan.go
2016-02-28 22:22:34 -05:00

282 lines
7.5 KiB
Go

// Copyright (c) 2013-2014 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package wallet
import (
"github.com/btcsuite/btcd/wire"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwallet/chain"
"github.com/btcsuite/btcwallet/waddrmgr"
"github.com/btcsuite/btcwallet/wtxmgr"
)
// RescanProgressMsg reports the current progress made by a rescan for a
// set of wallet addresses.
type RescanProgressMsg struct {
Addresses []btcutil.Address
Notification *chain.RescanProgress
}
// RescanFinishedMsg reports the addresses that were rescanned when a
// rescanfinished message was received rescanning a batch of addresses.
type RescanFinishedMsg struct {
Addresses []btcutil.Address
Notification *chain.RescanFinished
}
// RescanJob is a job to be processed by the RescanManager. The job includes
// a set of wallet addresses, a starting height to begin the rescan, and
// outpoints spendable by the addresses thought to be unspent. After the
// rescan completes, the error result of the rescan RPC is sent on the Err
// channel.
type RescanJob struct {
InitialSync bool
Addrs []btcutil.Address
OutPoints []*wire.OutPoint
BlockStamp waddrmgr.BlockStamp
err chan error
}
// rescanBatch is a collection of one or more RescanJobs that were merged
// together before a rescan is performed.
type rescanBatch struct {
initialSync bool
addrs []btcutil.Address
outpoints []*wire.OutPoint
bs waddrmgr.BlockStamp
errChans []chan error
}
// SubmitRescan submits a RescanJob to the RescanManager. A channel is
// returned with the final error of the rescan. The channel is buffered
// and does not need to be read to prevent a deadlock.
func (w *Wallet) SubmitRescan(job *RescanJob) <-chan error {
errChan := make(chan error, 1)
job.err = errChan
w.rescanAddJob <- job
return errChan
}
// batch creates the rescanBatch for a single rescan job.
func (job *RescanJob) batch() *rescanBatch {
return &rescanBatch{
initialSync: job.InitialSync,
addrs: job.Addrs,
outpoints: job.OutPoints,
bs: job.BlockStamp,
errChans: []chan error{job.err},
}
}
// merge merges the work from k into j, setting the starting height to
// the minimum of the two jobs. This method does not check for
// duplicate addresses or outpoints.
func (b *rescanBatch) merge(job *RescanJob) {
if job.InitialSync {
b.initialSync = true
}
b.addrs = append(b.addrs, job.Addrs...)
b.outpoints = append(b.outpoints, job.OutPoints...)
if job.BlockStamp.Height < b.bs.Height {
b.bs = job.BlockStamp
}
b.errChans = append(b.errChans, job.err)
}
// done iterates through all error channels, duplicating sending the error
// to inform callers that the rescan finished (or could not complete due
// to an error).
func (b *rescanBatch) done(err error) {
for _, c := range b.errChans {
c <- err
}
}
// rescanBatchHandler handles incoming rescan request, serializing rescan
// submissions, and possibly batching many waiting requests together so they
// can be handled by a single rescan after the current one completes.
func (w *Wallet) rescanBatchHandler() {
var curBatch, nextBatch *rescanBatch
quit := w.quitChan()
out:
for {
select {
case job := <-w.rescanAddJob:
if curBatch == nil {
// Set current batch as this job and send
// request.
curBatch = job.batch()
w.rescanBatch <- curBatch
} else {
// Create next batch if it doesn't exist, or
// merge the job.
if nextBatch == nil {
nextBatch = job.batch()
} else {
nextBatch.merge(job)
}
}
case n := <-w.rescanNotifications:
switch n := n.(type) {
case *chain.RescanProgress:
w.rescanProgress <- &RescanProgressMsg{
Addresses: curBatch.addrs,
Notification: n,
}
case *chain.RescanFinished:
if curBatch == nil {
log.Warnf("Received rescan finished " +
"notification but no rescan " +
"currently running")
continue
}
w.rescanFinished <- &RescanFinishedMsg{
Addresses: curBatch.addrs,
Notification: n,
}
curBatch, nextBatch = nextBatch, nil
if curBatch != nil {
w.rescanBatch <- curBatch
}
default:
// Unexpected message
panic(n)
}
case <-quit:
break out
}
}
w.wg.Done()
}
// rescanProgressHandler handles notifications for partially and fully completed
// rescans by marking each rescanned address as partially or fully synced.
func (w *Wallet) rescanProgressHandler() {
quit := w.quitChan()
out:
for {
// These can't be processed out of order since both chans are
// unbuffured and are sent from same context (the batch
// handler).
select {
case msg := <-w.rescanProgress:
n := msg.Notification
log.Infof("Rescanned through block %v (height %d)",
n.Hash, n.Height)
bs := waddrmgr.BlockStamp{
Hash: *n.Hash,
Height: n.Height,
}
if err := w.Manager.SetSyncedTo(&bs); err != nil {
log.Errorf("Failed to update address manager "+
"sync state for hash %v (height %d): %v",
n.Hash, n.Height, err)
}
case msg := <-w.rescanFinished:
n := msg.Notification
addrs := msg.Addresses
noun := pickNoun(len(addrs), "address", "addresses")
log.Infof("Finished rescan for %d %s (synced to block "+
"%s, height %d)", len(addrs), noun, n.Hash,
n.Height)
bs := waddrmgr.BlockStamp{n.Height, *n.Hash}
if err := w.Manager.SetSyncedTo(&bs); err != nil {
log.Errorf("Failed to update address manager "+
"sync state for hash %v (height %d): %v",
n.Hash, n.Height, err)
}
w.SetChainSynced(true)
go w.ResendUnminedTxs()
// TODO(jrick): The current websocket API requires
// notifying the block the rescan synced through to
// every connected client. This is code smell and
// should be removed or replaced with a more
// appropiate notification when the API is redone.
b := wtxmgr.BlockMeta{
Block: wtxmgr.Block{
*n.Hash,
n.Height,
},
Time: n.Time,
}
w.notifyConnectedBlock(b)
case <-quit:
break out
}
}
w.wg.Done()
}
// rescanRPCHandler reads batch jobs sent by rescanBatchHandler and sends the
// RPC requests to perform a rescan. New jobs are not read until a rescan
// finishes.
func (w *Wallet) rescanRPCHandler() {
chainClient, err := w.requireChainClient()
if err != nil {
log.Errorf("rescanRPCHandler called without an RPC client")
w.wg.Done()
return
}
quit := w.quitChan()
out:
for {
select {
case batch := <-w.rescanBatch:
// Log the newly-started rescan.
numAddrs := len(batch.addrs)
noun := pickNoun(numAddrs, "address", "addresses")
log.Infof("Started rescan from block %v (height %d) for %d %s",
batch.bs.Hash, batch.bs.Height, numAddrs, noun)
err := chainClient.Rescan(&batch.bs.Hash, batch.addrs,
batch.outpoints)
if err != nil {
log.Errorf("Rescan for %d %s failed: %v", numAddrs,
noun, err)
}
batch.done(err)
case <-quit:
break out
}
}
w.wg.Done()
}
// Rescan begins a rescan for all active addresses and unspent outputs of
// a wallet. This is intended to be used to sync a wallet back up to the
// current best block in the main chain, and is considered an initial sync
// rescan.
func (w *Wallet) Rescan(addrs []btcutil.Address, unspent []wtxmgr.Credit) error {
outpoints := make([]*wire.OutPoint, len(unspent))
for i, output := range unspent {
outpoints[i] = &output.OutPoint
}
job := &RescanJob{
InitialSync: true,
Addrs: addrs,
OutPoints: outpoints,
BlockStamp: w.Manager.SyncedTo(),
}
// Submit merged job and block until rescan completes.
return <-w.SubmitRescan(job)
}