/* * Copyright (c) 2013, 2014 Conformal Systems LLC * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ package main import ( "github.com/btcsuite/btcutil" "github.com/btcsuite/btcwire" "github.com/conformal/btcwallet/chain" "github.com/conformal/btcwallet/keystore" ) // 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 WasInitialSync bool } // 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 []*btcwire.OutPoint BlockStamp keystore.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 []*btcwire.OutPoint bs keystore.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 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, WasInitialSync: curBatch.initialSync, } curBatch, nextBatch = nextBatch, nil if curBatch != nil { w.rescanBatch <- curBatch } default: // Unexpected message panic(n) } case <-w.quit: break out } } close(w.rescanBatch) w.wg.Done() } // rescanProgressHandler handles notifications for paritally and fully completed // rescans by marking each rescanned address as partially or fully synced and // writing the keystore back to disk. func (w *Wallet) rescanProgressHandler() { 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) // TODO(jrick): save partial syncs should also include // the block hash. for _, addr := range msg.Addresses { err := w.KeyStore.SetSyncStatus(addr, keystore.PartialSync(n.Height)) if err != nil { log.Errorf("Error marking address %v "+ "partially synced: %v", addr, err) } } w.KeyStore.MarkDirty() err := w.KeyStore.WriteIfDirty() if err != nil { log.Errorf("Could not write partial rescan "+ "progress to keystore: %v", err) } case msg := <-w.rescanFinished: n := msg.Notification addrs := msg.Addresses noun := pickNoun(len(addrs), "address", "addresses") if msg.WasInitialSync { w.Track() w.ResendUnminedTxs() bs := keystore.BlockStamp{ Hash: n.Hash, Height: n.Height, } w.KeyStore.SetSyncedWith(&bs) w.notifyConnectedBlock(bs) // Mark wallet as synced to chain so connected // and disconnected block notifications are // processed. close(w.chainSynced) } log.Infof("Finished rescan for %d %s (synced to block "+ "%s, height %d)", len(addrs), noun, n.Hash, n.Height) for _, addr := range addrs { err := w.KeyStore.SetSyncStatus(addr, keystore.FullSync{}) if err != nil { log.Errorf("Error marking address %v "+ "fully synced: %v", addr, err) } } w.KeyStore.MarkDirty() err := w.KeyStore.WriteIfDirty() if err != nil { log.Errorf("Could not write finished rescan "+ "progress to keystore: %v", err) } case <-w.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() { for batch := range 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 := w.chainSvr.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) } w.wg.Done() } // RescanActiveAddresses begins a rescan for all active addresses 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 intial sync // rescan. func (w *Wallet) RescanActiveAddresses() (err error) { // Determine the block necesary to start the rescan for all active // addresses. hash, height := w.KeyStore.SyncedTo() if hash == nil { // TODO: fix our "synced to block" handling (either in // keystore or txstore, or elsewhere) so this *always* // returns the block hash. Looking it up by height is // asking for problems. hash, err = w.chainSvr.GetBlockHash(int64(height)) if err != nil { return } } actives := w.KeyStore.SortedActiveAddresses() addrs := make([]btcutil.Address, len(actives)) for i, addr := range actives { addrs[i] = addr.Address() } unspents, err := w.TxStore.UnspentOutputs() if err != nil { return } outpoints := make([]*btcwire.OutPoint, len(unspents)) for i, output := range unspents { outpoints[i] = output.OutPoint() } job := &RescanJob{ InitialSync: true, Addrs: addrs, OutPoints: outpoints, BlockStamp: keystore.BlockStamp{Hash: hash, Height: height}, } // Submit merged job and block until rescan completes. return <-w.SubmitRescan(job) }