/* * 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 ( "errors" "fmt" "sync" "time" "github.com/conformal/btcrpcclient" "github.com/conformal/btcscript" "github.com/conformal/btcutil" "github.com/conformal/btcwallet/txstore" "github.com/conformal/btcwallet/wallet" "github.com/conformal/btcwire" "github.com/conformal/btcws" ) // InvalidNotificationError describes an error due to an invalid chain server // notification and should be warned by wallet, but does not indicate an // problem with the current wallet state. type InvalidNotificationError struct { error } var ( // MismatchingNetworks represents an error where a client connection // to btcd cannot succeed due to btcwallet and btcd operating on // different bitcoin networks. ErrMismatchedNets = errors.New("mismatched networks") ) const ( // maxConcurrentClientRequests is the maximum number of // unhandled/running requests that the server will run for a websocket // client at a time. Beyond this limit, additional request reads will // block until a running request handler finishes. This limit exists to // prevent a single connection from causing a denial of service attack // with an unnecessarily large number of requests. maxConcurrentClientRequests = 20 ) type blockSummary struct { hash *btcwire.ShaHash height int32 } type acceptedTx struct { tx *btcutil.Tx block *btcws.BlockDetails // nil if unmined } // Notification types. These are defined here and processed from from reading // a notificationChan to avoid handling these notifications directly in // btcrpcclient callbacks, which isn't very go-like and doesn't allow // blocking client calls. type ( // Container type for any notification. notification interface { handleNotification() error } blockConnected blockSummary blockDisconnected blockSummary recvTx acceptedTx redeemingTx acceptedTx rescanFinished struct { error } rescanProgress int32 ) func (n blockConnected) handleNotification() error { // Update the blockstamp for the newly-connected block. bs := &wallet.BlockStamp{ Height: n.height, Hash: *n.hash, } curBlock.Lock() curBlock.BlockStamp = *bs curBlock.Unlock() AcctMgr.Grab() AcctMgr.BlockNotify(bs) AcctMgr.Release() // Pass notification to wallet clients too. if server != nil { // TODO: marshaling should be perfomred by the server, and // sent only to client that have requested the notification. marshaled, err := n.MarshalJSON() // The parsed notification is expected to be marshalable. if err != nil { panic(err) } server.broadcasts <- marshaled } return nil } // MarshalJSON creates the JSON encoding of the chain notification to pass // to any connected wallet clients. This should never error. func (n blockConnected) MarshalJSON() ([]byte, error) { nn := btcws.NewBlockConnectedNtfn(n.hash.String(), n.height) return nn.MarshalJSON() } func (n blockDisconnected) handleNotification() error { AcctMgr.Grab() defer AcctMgr.Release() // Rollback Utxo and Tx data stores. if err := AcctMgr.Rollback(n.height, n.hash); err != nil { return err } // Pass notification to wallet clients too. if server != nil { // TODO: marshaling should be perfomred by the server, and // sent only to client that have requested the notification. marshaled, err := n.MarshalJSON() // A btcws.BlockDisconnectedNtfn is expected to marshal without error. // If it does, it indicates that one of its struct fields is of a // non-marshalable type. if err != nil { panic(err) } server.broadcasts <- marshaled } return nil } // MarshalJSON creates the JSON encoding of the chain notification to pass // to any connected wallet clients. This should never error. func (n blockDisconnected) MarshalJSON() ([]byte, error) { nn := btcws.NewBlockDisconnectedNtfn(n.hash.String(), n.height) return nn.MarshalJSON() } func parseBlock(block *btcws.BlockDetails) (*txstore.Block, int, error) { if block == nil { return nil, btcutil.TxIndexUnknown, nil } blksha, err := btcwire.NewShaHashFromStr(block.Hash) if err != nil { return nil, btcutil.TxIndexUnknown, err } b := &txstore.Block{ Height: block.Height, Hash: *blksha, Time: time.Unix(block.Time, 0), } return b, block.Index, nil } func (n recvTx) handleNotification() error { block, txIdx, err := parseBlock(n.block) if err != nil { return InvalidNotificationError{err} } n.tx.SetIndex(txIdx) bs, err := GetCurBlock() if err != nil { return fmt.Errorf("cannot get current block: %v", err) } AcctMgr.Grab() defer AcctMgr.Release() // For every output, if it pays to a wallet address, insert the // transaction into the store (possibly moving it from unconfirmed to // confirmed), and add a credit record if one does not already exist. var txr *txstore.TxRecord txInserted := false for i, txout := range n.tx.MsgTx().TxOut { // Errors don't matter here. If addrs is nil, the range below // does nothing. _, addrs, _, _ := btcscript.ExtractPkScriptAddrs(txout.PkScript, activeNet.Params) for _, addr := range addrs { a, err := AcctMgr.AccountByAddress(addr) if err != nil { continue // try next address, if any } if !txInserted { txr, err = a.TxStore.InsertTx(n.tx, block) if err != nil { return err } txInserted = true } // Insert and notify websocket clients of the credit if it is // not a duplicate, otherwise, check the next txout if the // credit has already been inserted. if txr.HasCredit(i) { break } cred, err := txr.AddCredit(uint32(i), false) if err != nil { return err } AcctMgr.ds.ScheduleTxStoreWrite(a) ltr, err := cred.ToJSON(a.Name(), bs.Height, a.Wallet.Net()) if err != nil { return err } server.NotifyNewTxDetails(a.Name(), ltr) break // check whether next txout is a wallet txout } } server.NotifyBalances() return nil } func (n redeemingTx) handleNotification() error { block, txIdx, err := parseBlock(n.block) if err != nil { return InvalidNotificationError{err} } n.tx.SetIndex(txIdx) AcctMgr.Grab() err = AcctMgr.RecordSpendingTx(n.tx, block) AcctMgr.Release() return err } func (n rescanFinished) handleNotification() error { AcctMgr.rm.MarkFinished(n) return nil } func (n rescanProgress) handleNotification() error { AcctMgr.rm.MarkProgress(n) return nil } type rpcClient struct { *btcrpcclient.Client // client to btcd enqueueNotification chan notification dequeueNotification chan notification quit chan struct{} wg sync.WaitGroup } func newRPCClient(certs []byte) (*rpcClient, error) { client := rpcClient{ enqueueNotification: make(chan notification), dequeueNotification: make(chan notification), quit: make(chan struct{}), } initializedClient := make(chan struct{}) ntfnCallbacks := btcrpcclient.NotificationHandlers{ OnClientConnected: func() { log.Info("Established connection to btcd") <-initializedClient // nil client to broadcast to all connected clients server.NotifyConnectionStatus(nil) err := client.Handshake() if err != nil { log.Errorf("Cannot complete handshake: %v", err) client.Stop() } }, OnBlockConnected: client.onBlockConnected, OnBlockDisconnected: client.onBlockDisconnected, OnRecvTx: client.onRecvTx, OnRedeemingTx: client.onRedeemingTx, OnRescanFinished: client.onRescanFinished, OnRescanProgress: client.onRescanProgress, } conf := btcrpcclient.ConnConfig{ Host: cfg.RPCConnect, Endpoint: "ws", User: cfg.BtcdUsername, Pass: cfg.BtcdPassword, Certificates: certs, } c, err := btcrpcclient.New(&conf, &ntfnCallbacks) if err != nil { return nil, err } client.Client = c close(initializedClient) return &client, nil } func (c *rpcClient) Start() { c.wg.Add(2) go c.notificationQueue() go c.handleNotifications() } func (c *rpcClient) Stop() { if !c.Client.Disconnected() { log.Warn("Disconnecting chain server client connection") c.Client.Shutdown() } select { case <-c.quit: default: close(c.quit) close(c.enqueueNotification) } } func (c *rpcClient) WaitForShutdown() { c.Client.WaitForShutdown() c.wg.Wait() } func (c *rpcClient) onBlockConnected(hash *btcwire.ShaHash, height int32) { c.enqueueNotification <- (blockConnected)(blockSummary{hash, height}) } func (c *rpcClient) onBlockDisconnected(hash *btcwire.ShaHash, height int32) { c.enqueueNotification <- (blockDisconnected)(blockSummary{hash, height}) } func (c *rpcClient) onRecvTx(tx *btcutil.Tx, block *btcws.BlockDetails) { c.enqueueNotification <- recvTx{tx, block} } func (c *rpcClient) onRedeemingTx(tx *btcutil.Tx, block *btcws.BlockDetails) { c.enqueueNotification <- redeemingTx{tx, block} } func (c *rpcClient) onRescanProgress(height int32) { c.enqueueNotification <- rescanProgress(height) } func (c *rpcClient) onRescanFinished(height int32) { c.enqueueNotification <- rescanFinished{error: nil} } func (c *rpcClient) notificationQueue() { // 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 q []notification enqueue := c.enqueueNotification var dequeue chan notification var next notification out: for { select { case n, ok := <-enqueue: if !ok { // If no notifications are queued for handling, // the queue is finished. if len(q) == 0 { break out } // nil channel so no more reads can occur. enqueue = nil continue } if len(q) == 0 { next = n dequeue = c.dequeueNotification } q = append(q, n) case dequeue <- next: q[0] = nil q = q[1:] if len(q) != 0 { next = q[0] } else { // If no more notifications can be enqueued, the // queue is finished. if enqueue == nil { break out } dequeue = nil } } } close(c.dequeueNotification) c.wg.Done() } func (c *rpcClient) handleNotifications() { for n := range c.dequeueNotification { err := n.handleNotification() if err != nil { switch e := err.(type) { case InvalidNotificationError: log.Warnf("Ignoring invalid notification: %v", e) default: log.Errorf("Cannot handle notification: %v", e) } } } c.wg.Done() } // Handshake first checks that the websocket connection between btcwallet and // btcd is valid, that is, that there are no mismatching settings between // the two processes (such as running on different Bitcoin networks). If the // sanity checks pass, all wallets are set to be tracked against chain // notifications from this btcd connection. // // TODO(jrick): Track and Rescan commands should be replaced with a // single TrackSince function (or similar) which requests address // notifications and performs the rescan since some block height. func (c *rpcClient) Handshake() error { net, err := c.GetCurrentNet() if err != nil { return err } if net != activeNet.Net { return ErrMismatchedNets } // Request notifications for connected and disconnected blocks. if err := c.NotifyBlocks(); err != nil { return err } // Get current best block. If this is before than the oldest // saved block hash, assume that this btcd instance is not yet // synced up to a previous btcd that was last used with this // wallet. bs, err := GetCurBlock() if err != nil { return fmt.Errorf("cannot get best block: %v", err) } if server != nil { server.NotifyNewBlockChainHeight(&bs) server.NotifyBalances() } // Get default account. Only the default account is used to // track recently-seen blocks. a, err := AcctMgr.Account("") if err != nil { // No account yet is not a handshake error, but means our // handshake is done. return nil } // TODO(jrick): if height is less than the earliest-saved block // height, should probably wait for btcd to catch up. // Check that there was not any reorgs done since last connection. // If so, rollback and rescan to catch up. it := a.Wallet.NewIterateRecentBlocks() for cont := it != nil; cont; cont = it.Prev() { bs := it.BlockStamp() log.Debugf("Checking for previous saved block with height %v hash %v", bs.Height, bs.Hash) if _, err := c.GetBlock(&bs.Hash); err != nil { continue } log.Debug("Found matching block.") // If we had to go back to any previous blocks (it.Next // returns true), then rollback the next and all child blocks. // This rollback is done here instead of in the blockMissing // check above for each removed block because Rollback will // try to write new tx and utxo files on each rollback. if it.Next() { bs := it.BlockStamp() err := AcctMgr.Rollback(bs.Height, &bs.Hash) if err != nil { return err } } // Set default account to be marked in sync with the current // blockstamp. This invalidates the iterator. a.Wallet.SetSyncedWith(bs) // Begin tracking wallets against this btcd instance. AcctMgr.Track() if err := AcctMgr.RescanActiveAddresses(nil); err != nil { return err } // TODO: Only begin tracking new unspent outputs as a result // of the rescan. This is also pretty racy, as a new block // could arrive between rescan and by the time the new outpoint // is added to btcd's websocket's unspent output set. AcctMgr.Track() // (Re)send any unmined transactions to btcd in case of a btcd restart. AcctMgr.ResendUnminedTxs() // Get current blockchain height and best block hash. return nil } // Iterator was invalid (wallet has never been synced) or there was a // huge chain fork + reorg (more than 20 blocks). AcctMgr.Track() if err := AcctMgr.RescanActiveAddresses(&bs); err != nil { return err } // TODO: only begin tracking new unspent outputs as a result of the // rescan. This is also racy (see comment for second Track above). AcctMgr.Track() AcctMgr.ResendUnminedTxs() return nil }